CN115092718A - Utilize static to realize plastic granules conveyer belt for transportation of piece separation - Google Patents

Abstract

The invention discloses a conveying belt for conveying plastic particles, which utilizes static electricity to realize fragment separation and relates to the technical field of conveying equipment. This utilize static to realize plastic granules conveyer belt for transportation of piece separation includes two transmission rollers and a belt, two the transmission roller passes through belt transmission and connects, the guard plate is installed to the front side of transmission roller, the belt outside is seted up the recess of depositing that a plurality of equidistance set up. This utilize static to realize conveyer belt for plastic granules transportation of piece separation can filter plastic granules through setting up the arc filter plate for plastic granules in the plastic granules separates out, the drive block can utilize the storage notch on the belt to remove, thereby make friction between friction strip and the adsorption plate produce static, this static can adsorb plastic granules, plastic granules has improved the inside stability of loading attachment, thereby prevent that plastic granules from flying out the loading attachment through the arc filter plate.

Description

Utilize static to realize plastic granules conveyer belt for transportation of piece separation

Technical Field

The invention relates to the technical field of transmission equipment, in particular to a plastic particle conveying conveyor belt for realizing fragment separation by utilizing static electricity.

Background

The transmission equipment is a tool for transmitting various articles, the working principle of the transmission equipment is that the friction force between the belt and the articles is utilized for transmission, and the belt made of rubber can achieve the anti-slip effect as much as possible.

Current conveyer belt is when transporting plastic granules, and plastic granules can and the conveyer belt between the friction and produce static, tiny plastics piece among the plastic granules can the adhesion on the conveyer belt this moment to cause the surperficial friction of conveyer belt to reduce, influence transmission effect.

Disclosure of Invention

Technical problem to be solved

In view of the defects in the prior art, the invention provides a plastic particle transportation conveyor belt for realizing debris separation by utilizing static electricity, which solves the problems in the background art.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a plastic particle conveying conveyor belt for realizing chip separation by utilizing static electricity comprises two conveying rollers and a belt, wherein the two conveying rollers are in transmission connection through the belt, the front side of the conveying rollers is provided with a protective plate, the outer side of the belt is provided with a plurality of storage notches which are arranged at equal intervals, the two conveying rollers are arranged in a left-high and right-low manner, and the top of the right end of the belt is provided with a feeding device, an arc-shaped filter plate and an adsorption plate are fixed in the feeding device, the adsorption plate is contacted with the outer side of the belt, and the upper surface of the adsorption plate is provided with a friction strip in contact with the upper surface of the adsorption plate, both ends of the friction strip are fixed with the driving block, the driving block is positioned in one storage notch, the left lower corner of the friction strip is arranged as a round chamfer, the right side of the friction strip is straight and vertical to the adsorption plate, and a semicircular column strip is fixed on the part of the adsorption plate, which is positioned on the left side of the friction strip.

Preferably, a storage device is arranged at the bottom of the right side of the feeding device, the top of the storage device is fixed with the feeding device through a threaded fastener, a discharge port is formed in the bottom of the right side of the feeding device, and the feeding device is communicated with the inside of the storage device through the discharge port.

Preferably, the rubbing strip is internally provided with a flow channel, one end of the flow channel is located at the bottom of the left side of the rubbing strip, the other end of the flow channel is located at the top of the right side of the rubbing strip, the right side of the rubbing strip is vertically connected with a limiting plate in a sliding manner, and the limiting plate is connected with the feeding device in a left-right sliding manner through a limiting column.

Preferably, be provided with knocking device on the spacing post, knocking device includes swinging arms, striking strip and drive strip, swinging arms one end is articulated with spacing post, and the other end is fixed with the striking strip, drive strip top is fixed with the swinging arms, and the bottom is circular and is located the regional inside of motion at limiting plate top, limiting plate top both sides are the slope form setting.

Preferably, a plurality of fine holes are formed between the inner side of the belt and the storage notch, the top of the inner side of the belt is in contact with the stabilizing plate, the front side and the rear side of the stabilizing plate are respectively fixed with the two protection plates, the bottom of the stabilizing plate is fixedly provided with the humidifier, and the exhaust end of the humidifier faces the bottom of the inner side of the belt.

Preferably, the belt bottom is provided with water storage device, water storage device is fixed with the guard plate, the expansion joint has been seted up to the water storage device right side, and the inside guide plate that is provided with of expansion joint, the guide plate right-hand member is articulated to be installed on the guard plate, and is fixed with the three-dimensional enclosure at the guide plate top, three-dimensional enclosure left side and shielding plate contact, the shielding plate activity runs through guide plate and shielding plate bottom and the guard plate is articulated.

Preferably, the shielding plate is the arc and the centre of a circle is located the guide plate right-hand member, and the shielding plate top is fixed with the counter weight strip, the counter weight strip for the fretwork form and with the contact of three-dimensional enclosure baffle top.

Preferably, the guide plate right-hand member is fixed with the strip one end of knocking, the strip other end of knocking contacts with the storage device top, the guide plate top is fixed with strikes the board, strike board and the contact of belt bottom outside, the steadying plate bottom is fixed with the driving plate, driving plate bottom and the inboard contact in belt bottom.

(III) advantageous effects

The invention provides a conveying belt for conveying plastic particles, which utilizes static electricity to realize chip separation. The method has the following beneficial effects:

(1) this utilize static to realize conveyer belt for plastic granules transportation of piece separation, can filter plastic granules through setting up the arc filter plate, make the plastic scraps in the plastic granules separate out, the drive block can utilize the storage notch on the belt to remove, thereby make friction between friction strip and the adsorption plate produce static, this static can adsorb plastic scraps, improved the inside stability of plastic scraps at loading attachment, thereby prevent that plastic scraps from flying out loading attachment through the arc filter plate.

(2) According to the plastic particle conveying conveyor belt for realizing the chip separation by utilizing static electricity, when the friction strip moves rightwards and resets, the plastic chips can be pushed to move rightwards, and the plastic chips moving rightwards can be stored by arranging the storage device; the flow channel can be used for the plastic scraps to pass through when the friction strip moves leftwards, so that the plastic scraps are prevented from being pushed to move leftwards by the friction strip.

(3) This utilize static to realize conveyer belt for plastic granules transportation of piece separation can utilize the relative motion between limiting plate and the spacing post and strike the arc filter plate production through setting up knocking device, makes plastic granules discharge in the filtration pore from the arc filter plate, also can promote simultaneously that plastic granules in the plastic granules passes the arc filter plate and enters into inside the loading attachment on the arc filter plate.

(4) This utilize static to realize conveyer belt for transportation of plastic granules of piece separation can play the humidification effect to the belt bottom through setting up the humidifier for the belt surface is moist effect, prevents that friction between belt and the plastic granules from producing static and leading to plastic granules to adsorb the effect that drops that influences plastic granules on the belt surface, thereby can avoid plastic granules to be attached to inside depositing the notch for a long time.

(5) The conveying belt for conveying the plastic particles, which realizes the separation of the fragments by utilizing the static electricity, can block moisture passing through the belt by arranging the guide plate, the moisture is condensed on the surface of the guide plate to form water drops and then stays between the three-way baffle and the shielding plate for storage, the guide plate rotates under the action of gravity, and when the guide plate rotates to the bottom of the shielding plate, the shielding plate rotates and enables water between the three-way baffle and the shielding plate to be discharged into the water storage device, so that the water is recycled; strike the strip and can utilize resetting in the twinkling of an eye after the guide plate drainage to strike storage device through the setting for the inside plastics piece of storage device is compacter, improves the clastic storage capacity of plastics, strikes the board simultaneously and strikes the belt bottom, and this strikes kinetic energy and transmits to the belt top through the driving plate, makes the belt top deposit the plastic granules in the notch and breaks away from with the belt, prevents that the plastic granules adhesion is depositing inside the notch.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the belt structure of the present invention;

FIG. 3 is a half sectional view of a loading device according to the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the knocking device according to the present invention;

FIG. 6 is a schematic view of a water storage device according to the present invention;

FIG. 7 is a front sectional view of the rub strip of the present invention;

FIG. 8 is a schematic view of the rubbing strip structure of the present invention.

In the figure: 1. a transfer roller; 2. a belt; 21. a storage recess; 3. a protection plate; 4. a feeding device; 41. an arc-shaped filter plate; 42. an adsorption plate; 421. a semicircular column bar; 43. rubbing the strips; 431. a drive block; 432. a flow channel; 44. a limiting plate; 45. a limiting column; 5. a storage device; 6. a knocking device; 61. a swing lever; 62. an impact bar; 63. a drive bar; 7. a stabilizing plate; 71. a drive plate; 8. a humidifier; 9. a water storage device; 10. a baffle; 101. a three-way enclosure; 102. a shielding plate; 103. a weight strip; 104. knocking the strip; 105. and knocking the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a plastic particle conveying conveyor belt for realizing fragment separation by utilizing static electricity comprises two conveying rollers 1 and a belt 2, wherein the two conveying rollers 1 are in transmission connection through the belt 2, a protection plate 3 is installed on the front side of each conveying roller 1, a plurality of storage notches 21 which are arranged at equal intervals are formed in the outer side of the belt 2, the two conveying rollers 1 are arranged in a manner of being high at the left side and low at the right side, and the top of the right end of the belt 2 is provided with a feeding device 4, an arc-shaped filter plate 41 and an adsorption plate 42 are fixed inside the feeding device 4, the adsorption plate 42 is contacted with the outer side of the belt 2, and the upper surface of the adsorption plate 42 is provided with a friction strip 43 in contact, the two ends of the friction strip 43 are both fixed with a driving block 431, the driving block 431 is positioned inside one storage notch 21, the lower left corner of the friction strip 43 is arranged in a circular chamfer, the right side of the friction strip 43 is straight and vertical to the adsorption plate 42, and a part of the adsorption plate 42 positioned on the left side of the friction strip 43 is fixed with a semi-cylindrical strip 421. Can filter plastic granules through setting up arc filter plate 41 for plastic debris among the plastic granules separates out, and drive block 431 can utilize the notch 21 of depositing on the belt 2 to remove, thereby makes the friction between rub strip 43 and the adsorption plate 42 produce static, and this static can adsorb plastic debris, has improved the inside stability of plastic debris at loading attachment 4, thereby prevents that plastic debris from flying out loading attachment 4 through arc filter plate 41.

Preferably, in this embodiment, the storage device 5 is arranged at the bottom of the right side of the feeding device 4, the top of the storage device 5 is fixed to the feeding device 4 through a threaded fastener, the discharge port is formed at the bottom of the right side of the feeding device 4, and the feeding device 4 is communicated with the inside of the storage device 5 through the discharge port. When the friction strip 43 moves rightwards and returns, the plastic scraps are pushed to move rightwards, and the storage device 5 is arranged to store the plastic scraps moving rightwards.

Preferably, in this embodiment, a flow channel 432 is formed inside the rubbing strip 43, one end of the flow channel 432 is located at the bottom of the left side of the rubbing strip 43, the other end of the flow channel 432 is located at the top of the right side of the rubbing strip 43, the right side of the rubbing strip 43 is connected with the limiting plate 44 in a vertical sliding manner, and the limiting plate 44 is connected with the inside of the feeding device 4 in a horizontal sliding manner through the limiting column 45. The flow passage 432 is provided to allow the plastic chips to pass through when the rubbing strip 43 moves to the left, thereby preventing the plastic chips from being pushed to the left by the rubbing strip 43.

Preferably, in this embodiment, be provided with knocking device 6 on the spacing post 45, knocking device 6 includes swinging arms 61, striking strip 62 and drive strip 63, and swinging arms 61 one end is articulated with spacing post 45, and the other end is fixed with striking strip 62, and drive strip 63 top is fixed with swinging arms 61, and the bottom is circular and is located the regional inside of motion at limiting plate 44 top, and limiting plate 44 top both sides are the slope form setting. Through the arrangement of the knocking device 6, the arc-shaped filter plate 41 can be knocked by utilizing the relative movement between the limiting plate 44 and the limiting column 45, so that plastic particles are discharged from the filtering holes on the arc-shaped filter plate 41, and meanwhile, plastic scraps in the plastic particles on the arc-shaped filter plate 41 can be promoted to pass through the arc-shaped filter plate 41 and enter the feeding device 4.

Preferably, in the embodiment, a plurality of fine holes are formed between the inner side of the belt 2 and the storage recess 21, the top of the inner side of the belt 2 is in contact with the stabilizing plate 7, the front side and the rear side of the stabilizing plate 7 are respectively fixed with the two protection plates 3, the bottom of the stabilizing plate 7 is fixed with the humidifier 8, and the exhaust end of the humidifier 8 faces the bottom of the inner side of the belt 2. Can play the humidification effect to belt 2 bottom through setting up humidifier 8 for belt 2 surface is moist effect, prevents to rub between belt 2 and the plastic granules and produce static and lead to plastic granules to adsorb the effect that drops that influences plastic granules at belt 2 surface, thereby can avoid plastic granules to be attached to inside depositing notch 21 for a long time.

Preferably, in this embodiment, belt 2 bottom is provided with water storage device 9, and water storage device 9 is fixed with guard plate 3, and the expansion joint has been seted up on water storage device 9 right side, and the inside guide plate 10 that is provided with of expansion joint, guide plate 10 right-hand member are articulated to be installed on guard plate 3, and the guide plate 10 top is fixed with three-way enclosure 101, and three-way enclosure 101 left side and shielding plate 102 contact, and shielding plate 102 activity runs through guide plate 10 and shielding plate 102 bottom and guard plate 3 is articulated. Can block the moisture that passes belt 2 through setting up guide plate 10, the moisture can stop after guide plate 10 surface condenses to the drop of water and store between three-way baffle 101 and shielding plate 102, and guide plate 10 rotates under the effect of gravity, when guide plate 10 rotates to shielding plate 102 bottom, shielding plate 102 rotates and makes inside water discharge to water storage device 9 between three-way baffle 101 and the shielding plate 102, realizes the recycle to water.

Preferably, in this embodiment, the shielding plate 102 is arc-shaped, the center of the circle is located at the right end of the air deflector 10, a counterweight strip 103 is fixed on the top of the shielding plate 102, and the counterweight strip 103 is hollow and contacts with the top of the three-way baffle 101. The baffle plate 102 can be limited by arranging the counterweight strip 103.

Preferably, in this embodiment, the right end of the guide plate 10 is fixed to one end of the knocking strip 104, the other end of the knocking strip 104 is in contact with the top of the storage device 5, the knocking plate 105 is fixed to the top of the guide plate 10, the knocking plate 105 is in contact with the outer side of the bottom of the belt 2, the driving plate 71 is fixed to the bottom of the stabilizing plate 7, and the bottom of the driving plate 71 is in contact with the inner side of the bottom of the belt 2. Strike strip 104 through the setting and can utilize resetting in the twinkling of an eye after guide plate 10 drainage to strike storage device 5 for the inside plastics piece of storage device 5 is compacter, improves the clastic storage capacity of plastics, strikes board 105 simultaneously and strikes belt 2 bottom, should strike kinetic energy and pass through driving plate 71 and transmit to belt 2 top, makes belt 2 top deposit the plastic granules in the notch 21 and breaks away from with belt 2, prevents that the plastic granules adhesion is depositing inside the notch 21.

The working principle is as follows: plastic particles are guided into the feeding device 4, the plastic particles slide to the inside of the storage notch 21 at the top of the belt 2 along with the surface of the arc-shaped filter plate 41, the storage notch 21 can transmit the plastic particles, meanwhile, plastic scraps in the plastic particles pass through the arc-shaped filter plate 41 and enter the feeding device 4, in the rotating process of the storage notch 21, one side of the inner wall of the storage notch 21 can push the driving block 431 and the friction bar 43 to move left, the friction between the friction bar 43 and the adsorption plate 42 causes the surface of the adsorption plate 42 to carry static electricity and can adsorb the plastic scraps, when the friction bar 43 moves to the position of the semicylinder 421, the arc-shaped surface at the lower left corner of the friction bar 43 is pushed by the semicylinder 421 to move until the driving block 431 moves out of the storage notch 21, then, when the next storage notch 21 moves to the bottom of the driving block, the driving block 431 can move right under the action of gravity to reset, and the straight surface at the right side of the driving block 431 can push the plastic scraps to move right to move to the inside of the storage device 5 in the right process of the driving block 431, when the rubbing strip 43 moves to the left, the left end of the flow channel 432 scoops up the plastic debris on the adsorption plate 42, and the plastic debris passes through the flow channel 432 and moves to the right part of the flow channel 432;

the friction strip 43 drives the limit plate 44 to move in the moving process, when the limit plate 44 is in contact with the driving strip 63, the limit plate 44 pushes the driving strip 63 to ascend, the driving strip 63 drives the swing rod 61 to rotate and the impact strip 62 to ascend, and the impact strip 62 strikes the arc-shaped filter plate 41, so that plastic particles on the arc-shaped filter plate 41 move and plastic scraps are promoted to pass through the arc-shaped filter plate 41;

the moisture generated by the humidifier 8 can directly act on the inner side of the bottom of the belt 2 and pass through the tiny holes in the storage notch 21, at the moment, the whole belt 2 is in a wet state, static electricity generated by friction between the belt 2 and plastic particles is prevented from adhering to the surface of the belt 2 all the time, meanwhile, when the moisture acts on the guide plate 10, part of the moisture is liquefied and forms water drops between the three-way baffle 101 and the shielding plate 102, along with the increase of water quantity between the three-way baffle 101 and the shielding plate 102, the gravity of the guide plate 10 is increased and rotates anticlockwise, when the guide plate 10 moves to the bottom of the shielding plate 102, the shielding plate 102 rotates anticlockwise to be horizontal under the action of the water pressure, the water between the three-way baffle 101 and the shielding plate 102 flows leftwards to the inside of the water storage device 9 for storage, the subsequent guide plate 10 automatically resets, and when the guide plate 10 is rotated by water pressure, the guide plate 10 drives the knocking strip 104 to be separated from the storage device 5, when the guide plate 10 is reset, the knocking strip 104 is contacted with the storage device 5 again and knocks the storage device 5, and the knocking vibration promotes the plastic scraps in the storage device 5 to be more compact; meanwhile, when the guide plate 10 is reset, the knocking plate 105 knocks the bottom of the belt 2, the belt 2 transmits knocking kinetic energy to the top of the belt 2 through the transmission plate 71, so that plastic particles in the storage notch 21 at the top of the belt 2 are separated from the belt 2, and the plastic particles are prevented from being adhered inside the storage notch 21.

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

Claims (8)

1. A plastic particle transportation conveyor belt for realizing chip separation by utilizing static electricity comprises two conveying rollers (1) and a belt (2), and is characterized in that: two transmission roller (1) is connected through belt (2) transmission, guard plate (3) are installed to the front side of transmission roller (1), belt (2) outside is seted up deposit notch (21) that a plurality of equidistance set up, two transmission roller (1) is the setting of high right side low, and belt (2) right-hand member top is provided with loading attachment (4), loading attachment (4) inside is fixed with arc filter plate (41) and adsorption plate (42), adsorption plate (42) and belt (2) outside contact, and adsorption plate (42) upper surface contact is provided with friction strip (43), friction strip (43) both ends all are fixed with drive block (431), drive block (431) are located one and deposit notch (21) inside, friction strip (43) lower left corner is the setting of circular chamfer, friction strip (43) right side is straight form and perpendicular with adsorption plate (42), a semicircular column strip (421) is fixed on the part of the adsorption plate (42) positioned on the left side of the friction strip (43).

2. A conveyor belt for transporting plastic granules with electrostatic separation for chip separation according to claim 1, wherein: the feeding device is characterized in that a storage device (5) is arranged at the bottom of the right side of the feeding device (4), the top of the storage device (5) is fixed with the feeding device (4) through a threaded fastener, a discharge port is formed in the bottom of the right side of the feeding device (4), and the feeding device (4) is communicated with the inside of the storage device (5) through the discharge port.

3. A conveyor belt for transporting plastic granules with electrostatic separation for chip separation according to claim 1, wherein: inside flow channel (432) of having seted up of rubbing strip (43), flow channel (432) one end is located rubbing strip (43) left side bottom, and the other end is located rubbing strip (43) right side top, sliding connection about rubbing strip (43) right side and limiting plate (44), limiting plate (44) are through spacing post (45) and the inside left and right sliding connection of loading attachment (4).

4. A conveyor belt for transporting plastic granules with electrostatic separation for chip separation according to claim 3, characterized in that: be provided with knocking device (6) on spacing post (45), knocking device (6) include swinging arms (61), striking strip (62) and drive strip (63), swinging arms (61) one end is articulated with spacing post (45), and the other end is fixed with striking strip (62), drive strip (63) top is fixed with swinging arms (61), and the bottom is circular and is located the regional inside of the motion at limiting plate (44) top, limiting plate (44) top both sides are the slope form setting.

5. A conveyor belt for transporting plastic granules with electrostatic separation for chip separation according to claim 2, wherein: the improved leather belt is characterized in that a plurality of fine holes are formed between the inner side of the belt (2) and the storage notch (21), the top of the inner side of the belt (2) is in contact with the stabilizing plate (7), the front side and the rear side of the stabilizing plate (7) are fixed with the two protection plates (3) respectively, the bottom of the stabilizing plate (7) is fixed with the humidifier (8), and the exhaust end of the humidifier (8) faces the bottom of the inner side of the belt (2).

6. The conveyor belt for transporting plastic particles using static electricity to achieve separation of chips according to claim 5, wherein: belt (2) bottom is provided with water storage device (9), water storage device (9) are fixed with guard plate (3), the expansion joint has been seted up on water storage device (9) right side, and the inside guide plate (10) that is provided with of expansion joint, guide plate (10) right-hand member is articulated to be installed on guard plate (3), and guide plate (10) top is fixed with three-dimensional enclosure plate (101), three-dimensional enclosure plate (101) left side and shielding plate (102) contact, shielding plate (102) activity runs through guide plate (10) and shielding plate (102) bottom and guard plate (3) are articulated.

7. The conveyor belt for transporting plastic particles using static electricity to achieve separation of chips according to claim 6, wherein: baffle plate (102) are the arc and the centre of a circle is located guide plate (10) right-hand member, and baffle plate (102) top is fixed with counter weight strip (103), counter weight strip (103) are fretwork form and contact with three-dimensional enclosure baffle (101) top.

8. The conveyor belt for transporting plastic particles using static electricity to achieve separation of chips according to claim 6, wherein: guide plate (10) right-hand member is fixed with strip (104) one end of knocking, it contacts with storage device (5) top to knock the strip (104) other end, guide plate (10) top is fixed with strikes board (105), strike board (105) and belt (2) bottom outside contact, stabilizing plate (7) bottom is fixed with driving plate (71), driving plate (71) bottom and belt (2) bottom inboard contact.

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