CN116442432B - Feeding and conveying device for regenerated plastic particles - Google Patents

Abstract

The invention relates to the technical field of regenerated plastic particles, in particular to a feeding and conveying device for regenerated plastic particles, which comprises a bearing transmission mechanism, a plastic sieving mechanism arranged on the bearing transmission mechanism and a pressing sieve conveying mechanism arranged on the outer side of the bearing transmission mechanism. Two beam rods are installed in the top frame, the two beam rods are installed in the sieve plate in a matched mode through a plurality of nuts, the sieve plate can be suspended right above the partition plate, after the driving assembly is started and operates, the driven two eccentric turntables can drive the traction outer plate and the top frame to conduct reciprocating vibration, the protection clamping plates fixed by the outer frame can conduct positioning constraint on the reciprocating vibration top frame, along with the fact that workers place waste plastic bags and plastic products of the waste plastic bags on the top of the sieve plate, impurities and metal impurities can be screened towards the partition plate through the sieve plate under vibration, meanwhile, the knotted plastic bags can be scattered through vibration, and therefore the monitoring of straight pipes during vibration scattering of the waste plastic vibration sieve is facilitated.

Description

Feeding and conveying device for regenerated plastic particles

Technical Field

The invention relates to the technical field of regenerated plastic particles, in particular to a feeding and conveying device for regenerated plastic particles.

Background

The regenerated plastic particles belong to the category of plastic particles, namely the plastic particles are produced by recycling the used new materials or the waste plastic through a screw machine and then cutting the plastic particles into particles through a granulator.

At present, most of the sources of the regenerated plastic particles are made by smelting waste plastic bags and plastic products, and the waste plastic bags and plastic products are delivered to smelting equipment before being manually selected, once a large amount of metal particles or other impurities are mixed in the plastic bags, the quality of the smelted plastic particle products can be affected, and a plurality of waste plastics can be knotted or agglomerated due to the influence of external factors.

Before the link of converting the waste plastic into the regenerated plastic particles, how to improve the screening delivery of impurities and metal particles in the waste plastic bags and plastic products is the technical difficulty to be solved by the invention.

Disclosure of Invention

The present invention aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the invention is as follows:

the utility model provides a regeneration plastic granules material loading conveyor, includes bearing drive mechanism, installs the plastics sieve shake mechanism on bearing drive mechanism and installs the pressure sieve conveying mechanism in the bearing drive mechanism outside, bearing drive mechanism includes the base, install a plurality of elastic expansion bars on two cushion at the base top, install baffle on a cushion at the base top, install the drive assembly on the base, connect two eccentric turntables on the body of rod at drive assembly both ends, the track of transmission on the drive assembly body of rod, install two outer frames of base both sides respectively, install the protection splint and the traction outside board of swing joint on the outside end pole of eccentric turntables on the outer frame top end pole of rod, plastics sieve shake mechanism includes movable mounting roof frame in two protection splint inside spouts, utilize a plurality of nuts to install two beam rods in the roof frame, install at the outside sieve of two beam rods, install the main pallet on one side of sieve bottom, connect the auxiliary pallet on the bottom opposite side of the base, lie in two baffles on both sides and utilize the bolt to install on the base top cushion, pressure sieve conveying mechanism includes that two bottom support brackets are installed at two bottom brackets, two end trusses are installed outside the two truss and two movable support girders are installed outside the end truss and two movable support girders.

The present invention may be further configured in a preferred example to: the elastic telescopic rod consists of a main rod, a sub rod and a spring, the main pipe is adaptively inserted into a vertical hole of a cushion block at the top of the base, a plurality of upright posts are arranged at the bottom of the partition plate, a port at the other end of the partition plate is positioned right above a rectangular notch at the top of the base, and a plurality of holes which are adaptive to the elastic telescopic rod are formed in the partition plate.

Through adopting above-mentioned technical scheme, utilize the bottom of adjacent three main pipe to install respectively in two cushion at base top to install the top of adjacent three son pole respectively in the bottom of main layer board and supplementary layer board, when the sieve carries out the seismometer to the waste plastics at its top and handles, impurity and metal impurity in the plastics just can drop towards the baffle top along the gap in the sieve, and the plastics that agglomerates or tie knots can obtain shake and scatter the processing this moment, in order to improve the separation of impurity and plastics.

The present invention may be further configured in a preferred example to: the whole zigzag structure that is of outer frame, and the hole groove of centre gripping in protection splint has been seted up to the outer end of outer frame top end pole, protection splint is inside to be seted up and to guide the spout that roof-rack both sides end pole stretched.

Through adopting above-mentioned technical scheme, utilize two outer framves to fix two protection splint, the roof rack that is arranged in the inside spout of two protection splint this moment can cooperate two traction planking to carry out stable reciprocative extension, and by the fixed sieve of two beam rods alright carry out invariable vibration frequency and sieve shake processing to plastics.

The present invention may be further configured in a preferred example to: the shrinkage pool that adapts to the roof-rack bottom inserted bar has been seted up to the inside of beam pole both ends screw thread body of rod, and two beam poles run through respectively to in two violently managing in the sieve, the sieve is formed by the gasket welding of a plurality of bending, and a plurality of gaskets are close to the end of collet truss and are located the delivery track directly over.

Through adopting above-mentioned technical scheme, utilize to peg graft the inserted bar on the roof-rack bottom end respectively in the shrinkage pool at two adjacent beam rod both ends, drive roof-rack and two beam rods when traction planking and carry out the back that reciprocates and extend, place the plastics at the sieve top this moment and can obtain high frequency seismometer and handle, the impurity after being seismometer this moment alright drop at the top of baffle, and then make things convenient for plastics after the seismometer to shift upwards along the sieve.

The present invention may be further configured in a preferred example to: the utility model discloses a shoe truss, including shoe truss, guide bar, cross bar, guide bar bottom screw rod sideslip, the shoe truss is whole to be U font structure, and the transverse groove has been seted up to the inside of shoe truss both ends horizontal pole, the track of guide bar bottom screw rod sideslip has been seted up to the outer wall of two horizontal poles.

Through adopting above-mentioned technical scheme, utilize with the bottom respectively movable mounting of two vaulting poles in two transverse grooves of collet truss, the top of two vaulting poles can respectively movable mounting in the inboard of two splint this moment, after adjusting the elasticity of nut on the stay pole bottom screw rod, along with the rotation of restraint line rocker, two guys of winding outside of it just can drive two vaulting pole bottoms and remove along the transverse groove, the top of two splint this moment alright cooperate the port of not co-altitude smelting equipment to carry out the adaptation butt joint.

The present invention may be further configured in a preferred example to: the whole L-shaped structure that is of spacing outer frame, spacing outer frame inner chamber is connected with the pressure spring, and the triangle cushion that runs through to in the spacing outer frame inner chamber is installed at the top of pressure spring.

Through adopting above-mentioned technical scheme, utilize to install the bottom of pressure spring at the inner chamber of spacing outer frame to install the top at the pressure spring with the triangle cushion, cooperation triangle cushion is to the elastic support of pressure-bearing member, after the main shaft pole is driven by the track, the main shaft pole alright drive pressure-bearing member carries out the secondary pressure boost striking against the plastics at delivery track top, in order to improve plastics interior caking impurity and obtain discharging.

The present invention may be further configured in a preferred example to: and one end of the main shaft rod, which is close to the crawler belt, is provided with a boosting end, and the other end of the main shaft rod is provided with a rotary table for guiding the pressure bearing piece to extend in a reciprocating manner.

Through adopting above-mentioned technical scheme, utilize setting up the pressure-bearing piece inner backing plate in the inboard of two adjacent splint, along with the reciprocal extension of pressure-bearing piece inclined support, the backing plate of installing on the inclined support can carry out the impact that continuously pressurizes to the plastic bag or the plastic products that fall on the delivery track to ensure that caking impurity on the plastics gets rid of.

By adopting the technical scheme, the beneficial effects obtained by the invention are as follows:

1. according to the invention, the driving component capable of synchronously driving the two eccentric turntables is arranged on the base, the end rods outside the eccentric turntables are movably arranged on the traction outer plate connected to the top frame, the two beam rods are arranged in the sieve plate in a matched mode, the sieve plate is suspended above the partition plate at the moment, when the driving component is started and operated, the driven two eccentric turntables can drive the traction outer plate and the top frame to perform reciprocating vibration, the protective clamping plate fixed by the outer frame can position and restrict the reciprocating vibration top frame, impurities and metal impurities can be screened towards the partition plate along with the sieve plate under vibration after a worker places the waste plastic bag and plastic products on the top of the sieve plate, and meanwhile, the knotted plastic bag can be scattered in a vibration mode, so that the straight pipe monitoring during vibration of the waste plastic sieve is convenient.

2. According to the invention, the bottom support truss is arranged at one end of the base, the two supporting rods are movably arranged in one end of the bottom support truss, which is far away from the base, the end heads of the bottoms of the supporting rods are provided with the inhaul cables, the other ends of the inhaul cables are matched with the winding of clamping heads at the two ends of the wire harness rocking rod, when the tightness of nuts on the screw rods at the bottom ends of the supporting rods is regulated, the gradient of the top ends of clamping plates is regulated, and further, the delivery of the device can be realized, the ports of smelting equipment with different heights can be adapted, the limiting outer frame arranged outside the bottom support truss can elastically support the pressure bearing piece, the pressure bearing piece can eccentrically rotate along the end heads, which are close to one end of the limiting outer frame, of the main shaft rod along the main shaft rod, at the moment, the plastic falling on the conveying track can be subjected to secondary pressurizing vibration sieve treatment, so that the problem of blocking the ports of the smelting equipment caused by hard expansion of the delivered plastic is solved.

Drawings

FIG. 1 is a schematic illustration of the present invention in use;

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

FIG. 3 is a schematic view of a screen press conveyor mechanism of the present invention;

FIG. 4 is a dispersion schematic of the screen press conveyor of the present invention;

FIG. 5 is an internal schematic view of the shoe truss of the present invention;

FIG. 6 is an enlarged schematic view of the invention at A of FIG. 5;

FIG. 7 is a schematic view of a load bearing transmission mechanism and a plastic screening vibration mechanism of the present invention;

FIG. 8 is an internal schematic view of FIG. 7 in accordance with the present invention;

FIG. 9 is an enlarged schematic view of the elastic telescoping rod of the present invention at B;

FIG. 10 is an internal schematic view of the load bearing transmission mechanism of the present invention;

fig. 11 is an enlarged schematic view at C of the present invention.

Reference numerals:

100. a bearing transmission mechanism; 110. a base; 120. an elastic telescopic rod; 130. a partition plate; 140. a drive assembly; 150. an eccentric turntable; 160. a track; 170. an outer frame; 180. a protective splint; 190. traction outer plate;

200. a plastic sieving mechanism; 210. a top frame; 220. a beam; 230. a sieve plate; 240. a main pallet; 250. an auxiliary supporting plate; 260. a baffle;

300. a screen pressing conveying mechanism; 310. a shoe truss; 320. a limiting outer frame; 330. a wire harness rocker; 340. a brace rod; 350. a clamping plate; 360. an auxiliary shaft lever; 370. a main shaft lever; 380. a delivery crawler; 390. and a pressure-bearing member.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present invention and features in the embodiments may be combined with each other.

It is to be understood that this description is merely exemplary in nature and is not intended to limit the scope of the present invention.

The following describes a feeding and conveying device for reclaimed plastic particles according to some embodiments of the present invention with reference to the accompanying drawings.

Embodiment one:

referring to fig. 1 to 11, the feeding and conveying device for regenerated plastic particles provided by the invention comprises a bearing transmission mechanism 100, a plastic sieving and vibrating mechanism 200 arranged on the bearing transmission mechanism 100, and a pressing and sieving conveying mechanism 300 arranged on the outer side of the bearing transmission mechanism 100.

The load bearing transmission mechanism 100 comprises a base 110, an elastic telescopic rod 120, a partition 130, a driving assembly 140, an eccentric turntable 150, a crawler 160, an outer frame 170, a protective clamping plate 180 and a traction outer plate 190, the plastic screen vibration mechanism 200 comprises a top frame 210, a beam 220, a screen plate 230, a main supporting plate 240, an auxiliary supporting plate 250 and a baffle 260, and the screen pressing and conveying mechanism 300 comprises a bottom supporting truss 310, a limiting outer frame 320, a wire harness rocker 330, a supporting rod 340, a clamping plate 350, a secondary shaft 360, a main shaft 370, a material delivering crawler 380 and a pressure bearing piece 390.

Specifically, a plurality of elastic telescopic rods 120 are installed on two cushion blocks at the top of the base 110, the partition plate 130 is installed on one cushion block at the top of the base 110, the driving assembly 140 is installed on the base 110, two eccentric turntables 150 are connected to rod bodies at two ends of the driving assembly 140, the crawler 160 is driven on the rod bodies of the driving assembly 140, two outer frames 170 are respectively installed at two sides of the base 110, the protective clamping plates 180 are installed on end rods at the top of the outer frames 170, the traction outer plates 190 are movably connected to end rods at the outer sides of the eccentric turntables 150, the top frames 210 are movably installed in sliding grooves inside the two protective clamping plates 180, two beam rods 220 are installed in the top frames 210 by utilizing a plurality of nuts, the sieve plate 230 is installed outside the two beam rods 220, the main supporting plate 240 is installed at one side of the bottom of the sieve plate 230, the auxiliary supporting plate 250 is connected to the other side of the bottom of the sieve plate 230, the two baffle plates 260 are located at two sides of the sieve plate 230 and are installed on the top of the base 110 by utilizing bolts, the bottom brackets 310 are installed at one end of the base 110, the limiting outer frames 320 are installed at one end of the bottom brackets 310, the outer frames 330 are movably connected to the inner side of the two trusses 340 and the two auxiliary trusses 360 are movably installed at the two ends of the two end trusses 360 respectively, and the two end trusses 360 are movably connected to the inner sides of the two truss supports 340 and the two truss supports 360 are movably arranged at the two ends of the main truss supports 360 are movably adjacent to the two end supports 360.

By installing two beam rods 220 in the top frame 210 and installing the two beam rods 220 in the sieve plate 230 by matching with a plurality of nuts, the sieve plate 230 is suspended right above the partition plate 130 at this moment, after the driving assembly 140 is started and operated, the driven two eccentric turntables 150 drive the traction outer plate 190 and the top frame 210 to vibrate reciprocally, the protective clamping plate 180 fixed by the outer frame 170 can position and restrict the reciprocally vibrating top frame 210, as workers place waste plastic bags and plastic products thereof on the top of the sieve plate 230, the vibrating sieve plate 230 can filter impurities and metal impurities towards the partition plate 130, meanwhile, a pull rope is installed on the end head of the bottom of the supporting rod 340, the other end of the pull rope is matched with the winding of chucks at two ends of the wire harness rocking rod 330, when the tightness of the nuts on the bottom end screw of the supporting rod 340 is adjusted, the delivery of the device can adapt to smelting equipment ports at different heights at this moment, the outer limiting frames 320 installed outside the bottom frame 310 can elastically support the bearing piece 390, as the main shaft 390 rotates, the main shaft 370 can continuously rotate along with the main shaft 370 to be close to the limiting frame 320, and the secondary vibration can be processed at one end of the upper end of the lower end of the plastic truss frame 320, and the secondary vibration can be processed.

Embodiment two:

referring to fig. 8-11, on the basis of the first embodiment, the elastic telescopic rod 120 is composed of a mother rod, a child rod and a spring, the mother tube is adapted to be inserted into a vertical hole of a cushion block at the top of the base 110, a plurality of upright posts are installed at the bottom of the partition plate 130, a port at the other end of the partition plate 130 is located right above a rectangular notch at the top of the base 110, a plurality of holes adapted to the elastic telescopic rod 120 are formed in the partition plate 130, the whole outer frame 170 is in a zigzag structure, a hole slot for clamping the protective clamping plate 180 is formed at the outer end of an end rod at the top end of the outer frame 170, and a chute for guiding the end rods at two sides of the top frame 210 to stretch is formed in the protective clamping plate 180.

The bottom ends of the three adjacent main pipes are respectively arranged in two cushion blocks at the top of the base 110, the top ends of the three adjacent sub-rods are respectively arranged at the bottoms of the main supporting plate 240 and the auxiliary supporting plate 250, when the sieve plate 230 performs vibration screening treatment on waste plastics at the top of the main supporting plate, impurities and metal impurities in the plastics fall down towards the top of the partition plate 130 along gaps in the sieve plate 230, the agglomerated or knotted plastics can be subjected to vibration dispersion treatment, the two protective clamping plates 180 are fixed by combining the two outer frames 170, the top frame 210 in the sliding grooves in the two protective clamping plates 180 can be matched with the two traction outer plates 190 to perform stable reciprocating extension, and the sieve plate 230 fixed by the two beam rods 220 can perform vibration screening treatment on the plastics at constant vibration frequency.

Embodiment III:

referring to fig. 10 and 11, on the basis of the first embodiment, concave holes adapted to the inserted bars at the bottom ends of the top frames 210 are formed in the threaded rod bodies at the two ends of the beam rods 220, the two beam rods 220 respectively penetrate into two transverse pipes in the sieve plate 230, the sieve plate 230 is formed by welding a plurality of bent gaskets, and the ends, close to the bottom support trusses 310, of the plurality of gaskets are located right above the material delivering crawler 380.

By respectively plugging the inserted bars on the bottom ends of the top frame 210 into the concave holes on the two ends of the two adjacent beam rods 220, when the traction outer plate 190 drives the top frame 210 and the two beam rods 220 to extend reciprocally, the plastic placed on the top of the screen plate 230 can be subjected to high-frequency vibration screening treatment, and impurities after being subjected to vibration screening can fall on the top of the partition plate 130, so that the plastic after the vibration screening can be conveniently transferred along the screen plate 230 to the delivery caterpillar 380.

Embodiment four:

referring to fig. 4 to 8, on the basis of the first embodiment, the bottom support truss 310 is integrally in a U-shaped structure, transverse grooves are formed in the transverse rods at two ends of the bottom support truss 310, tracks for guiding the screws at the bottoms of the supporting rods 340 to transversely move are formed in the outer walls of the two transverse rods, the limiting outer frame 320 is integrally in an L-shaped structure, a compression spring is connected to an inner cavity of the limiting outer frame 320, a triangular cushion block penetrating into the inner cavity of the limiting outer frame 320 is mounted at the top of the compression spring, a boosting end is mounted at one end, close to the crawler 160, of the main shaft rod 370, and a turntable for guiding the guide piece 390 to reciprocate is mounted at the other end of the main shaft rod 370.

The bottom ends of the two supporting rods 340 are movably arranged in the two transverse grooves of the bottom support truss 310 respectively, the top ends of the two supporting rods 340 are movably arranged on the inner sides of the two clamping plates 350 respectively, after the tightness of nuts on the screw rods at the bottom ends of the supporting rods 340 is regulated, the two stay ropes wound on the outer sides of the two stay rods drive the bottom ends of the two supporting rods 340 to move along the transverse grooves along with the rotation of the wire-binding rocking bars 330, the top ends of the two clamping plates 350 can be matched with ports of smelting equipment with different heights to carry out adaptive butt joint, the triangular cushion blocks are arranged on the top ends of the pressure springs, the elastic support of the pressure springs is matched with the triangular cushion blocks, after the main shaft rod 370 is driven by the caterpillar band 160, the main shaft rod 370 can drive the pressure bearing 390 to carry out secondary pressurizing impact on plastics at the top of the delivery caterpillar band 380, caking impurities in plastics can be crushed, and as the pressure bearing 390 inclines to extend back and forth on the inclined support, the backing plate arranged on the inclined support can carry out continuous pressurizing impact on plastic bags or plastic products falling on the delivery caterpillar band 380, so that caking impurities on plastics are ensured to be removed.

The working principle and the using flow of the invention are as follows: the two eccentric turntables 150 are respectively installed on the outer ends of the two rod bodies of the driving assembly 140 in advance, at this time, the motor in the driving assembly 140 is fixed by the base in the middle of the top surface of the base 110, the rod bodies at the two ends of the driving assembly 140 are respectively penetrated into the two outer frames 170 fixed outside the base 110, the two eccentric turntables 150 are positioned outside the two outer frames 170, the bottom of the protective clamping plate 180 is penetrated into the end rod at the top end of the outer frame 170, the end of the protective clamping plate 180 penetrated into the end rod bottom is movably installed on the rod body outside the driving assembly 140, the vertical groove in the protective clamping plate 180 is clamped on the end posts in the middle of the rod bodies at the two sides of the top frame 210, the outer guide rod of the eccentric turntables 150 is connected with the outer ends of the end posts by the traction outer plates 190, the two beam rods 220 are installed in the sieve plate 230 by a plurality of nuts, the main pallet 240 and the auxiliary pallet 250 mounted at the bottom of the screen plate 230 are mounted on the pads at both sides of the top surface of the base 110 by a plurality of combined elastic telescopic rods 120, then two baffles 260 are respectively mounted on both sides of the pad at the top of the base 110 by a plurality of bolts, the partition 130 is mounted on the pad at the top of the base 110, the top ends of the telescopic rods in the plurality of elastic telescopic rods 120 penetrate to the top of the partition 130, the partition 130 is positioned between the screen plate 230 and the base 110, then the bottom ends of the two support rods 340 are movably mounted in the transverse grooves at one end of the base 110, then the bottom ends of the two support rods 340 are connected by the inhaul cables, the other ends of the inhaul cables are wound on the clamps at both ends of the wire-harness rockers 330, the top ends of the support rods 340 are movably mounted on the inner walls at the top of the two clamping plates 350, the delivering crawler 380 is driven and connected to the inner sides of the two clamping plates 350 by the auxiliary shaft 360 and the main shaft 370, the pressure bearing 390 is movably connected to the turntable of the main shaft 370 near one end of the limiting outer frame 320, the inclined shaft on the pressure bearing 390 is supported by the elastic supporting member in the limiting outer frame 320, the end of the other end of the main shaft 370 is driven and connected by the crawler 160 and the rod body of the driving assembly 140, along with the start and operation of the driving assembly 140, the rotation of the two eccentric turntables 150 drives the two traction outer plates 190 and the top frame 210 to extend reciprocally, at this time, the sieve plate 230 assembled by the two beam rods 220 can shake and scatter the carried plastic bags and plastic products at high frequency, and through the gaps of the sieve plate 230, the impurity particles in the plastic can drop on the top of the partition plate 130, the plastic bags or plastic products after shake and drop on the delivering crawler 380, when the delivering crawler 380 rotates, the rotation of the main shaft 370 can drive the pressure bearing 390 to collide the plastic bags or plastic products on the top of the delivering crawler 380 for the second time, so as to improve the quality of the separated plastic bags and the plastic products in the final direction to be discharged to the top of the plastic crawler 380.

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

Claims (8)

1. The feeding and conveying device for the regenerated plastic particles is characterized by comprising a bearing transmission mechanism (100), a plastic sieving and vibrating mechanism (200) arranged on the bearing transmission mechanism (100) and a pressing and sieving and conveying mechanism (300) arranged on the outer side of the bearing transmission mechanism (100);

the bearing transmission mechanism (100) comprises a base (110), a plurality of elastic telescopic rods (120) arranged on two cushion blocks at the top of the base (110), a baffle plate (130) arranged on one cushion block at the top of the base (110), a driving assembly (140) arranged on the base (110), two eccentric turntables (150) connected to rod bodies at two ends of the driving assembly (140), tracks (160) transmitted to the rod bodies of the driving assembly (140), two outer frames (170) respectively arranged at two sides of the base (110), a protective clamping plate (180) arranged on the end rod at the top of the outer frame (170) and a traction outer plate (190) movably connected to the outer end rod of the eccentric turntables (150);

the plastic screening vibration mechanism (200) comprises a top frame (210) movably arranged in a chute in the two protective clamping plates (180), two beam rods (220) arranged in the top frame (210) by utilizing a plurality of nuts, a screen plate (230) arranged outside the two beam rods (220), a main supporting plate (240) arranged at one side of the bottom of the screen plate (230), an auxiliary supporting plate (250) connected at the other side of the bottom of the screen plate (230), and two baffle plates (260) positioned at two sides of the screen plate (230) and arranged on a cushion block at the top of the base (110) by utilizing bolts;

the pressing and screening conveying mechanism (300) comprises two clamping plates (350), a secondary shaft (360) and a primary shaft (370) which are movably mounted on the inner sides of the two adjacent clamping plates (350), a delivery crawler (380) which is driven on the secondary shaft (360) and the primary shaft (370), and a pressure-bearing piece (390) which is movably mounted on one end of the primary shaft (370) close to the limiting outer frame (320);

concave holes which are adapted to inserted bars at the bottom ends of the top frames (210) are formed in threaded rod bodies at two ends of the beam rods (220), and the two beam rods (220) respectively penetrate into two transverse pipes in the sieve plate (230);

the sieve plate (230) is formed by welding a plurality of bent gaskets, and the end of the gaskets, which is close to the bottom bracket truss (310), is positioned right above the delivery crawler belt (380).

2. The feeding and conveying device for the regenerated plastic particles according to claim 1, wherein the elastic telescopic rod (120) consists of a main rod, a sub rod and a spring, and the main pipe is adaptively inserted into a vertical hole of a cushion block at the top of the base (110).

3. The feeding and conveying device for the regenerated plastic particles according to claim 1, wherein a plurality of upright posts are arranged at the bottom of the partition plate (130), a port at the other end of the partition plate (130) is located right above a rectangular notch at the top of the base (110), and a plurality of holes which are adapted to the elastic telescopic rods (120) are formed in the partition plate (130).

4. The feeding and conveying device for the regenerated plastic particles according to claim 1, wherein the outer frame (170) is integrally in a zigzag structure, the outer end of the top end rod of the outer frame (170) is provided with a hole groove clamped on the protective clamping plate (180), and the protective clamping plate (180) is internally provided with a sliding groove for guiding the end rods at two sides of the top frame (210) to stretch.

5. The feeding and conveying device for the regenerated plastic particles according to claim 1, wherein the press screen conveying mechanism (300) comprises a bottom support truss (310) arranged at one end of the base (110), a limiting outer frame (320) arranged outside the bottom support truss (310), a wire harness rocker (330) movably arranged inside the bottom support truss (310), supporting rods (340) movably arranged in two end rod bodies outside the bottom support truss (310), and two clamping plates (350) respectively connected to the top ends of the two supporting rods (340).

6. The feeding and conveying device for the reclaimed plastic particles according to claim 5, wherein the bottom support truss (310) is of a U-shaped structure as a whole, transverse grooves are formed in transverse rods at two ends of the bottom support truss (310), and rails for guiding screws at the bottoms of the supporting rods (340) to transversely move are formed in the outer walls of the two transverse rods.

7. The feeding and conveying device for the regenerated plastic particles according to claim 5, wherein the limiting outer frame (320) is of an L-shaped structure as a whole, a compression spring is connected to an inner cavity of the limiting outer frame (320), and a triangular cushion block penetrating into the inner cavity of the limiting outer frame (320) is arranged at the top of the compression spring.

8. A feeding and conveying device for regenerated plastic granules according to claim 1, wherein a boosting end is mounted at one end of the main shaft rod (370) close to the crawler belt (160), and a turntable for guiding the compression member (390) to extend reciprocally is mounted at the other end of the main shaft rod (370).