CN112829259A - Plastic particle feeding device of cable processing equipment - Google Patents

Abstract

The invention relates to the technical field of cable processing, in particular to a plastic particle feeding device of cable processing equipment, which solves the problems that sticky plastic particles are not scattered in a targeted manner before a plastic extruding machine feeds materials, and a large amount of moisture doped among particles can cause a product to be damaged in the plastic extruding process of the plastic extruding machine on the plastic particles; the upper end of the box body is communicated with the feeding hopper, a screen body crushing device is arranged in the box body, a stirring device is arranged at the lower end of the corresponding position of the screen body crushing device, the stirring device is communicated with the pretreatment device, and the stirring device is contacted with the discharging device; through being provided with screen frame milling device, screen frame milling device can be with the first processing that carries on of plastic granules of cable, will move to the device through the plastic granules sieve that the screen frame pulverizes, and preprocessing device blows tacky plastic granules, prevents that plastic granules from gluing together, and agitating unit can guarantee that preprocessing device handles more abundant.

Description

Plastic particle feeding device of cable processing equipment

Technical Field

The invention relates to the technical field of cable processing, in particular to a plastic particle feeding device of cable processing equipment.

Background

The extruder is an important plastic machine, most of plastic products can be produced and manufactured by extrusion molding, and the motor of the extruder is an important component of the extruder and is a prime motor of the extruder to provide large thrust required by a screw of the extruder.

The plastic extruding machine is not aimed at scattering sticky plastic particles before feeding, and a large amount of moisture doped among particles can cause the plastic extruding machine to cause the breakage of products in the plastic particle extruding process, and the plastic extruding machine does not discharge materials according to requirements in the discharging process.

Disclosure of Invention

The invention relates to the technical field of cable processing, in particular to a plastic particle feeding device of cable processing equipment, which is provided with a screen body crushing device, wherein the screen body crushing device can firstly process plastic particles of a cable and screen the plastic particles crushed by a screen body into the device, so that the processing time of the plastic particles with large particles is prevented from being longer than that of the plastic particles with large particles, the processing time is prolonged or too short to completely process the plastic particles with large particles, then the screen body crushing device can crush the plastic particles with large particles, the plastic particles are ensured to be completely used, the sticky plastic particles are stirred by a stirring device and are combined with the pretreatment device, the pretreatment device blows the sticky plastic particles to prevent the plastic particles from being stuck together, and the stirring device can ensure that the pretreatment device can treat more fully, guarantee that all plastic granules can both be pretreated, unloader can be as required ejection of compact, when avoiding not needing plastic granules, the device still continues the unloading.

In order to solve the technical problems, the invention relates to the technical field of cable processing, in particular to a plastic particle feeding device of cable processing equipment, which comprises a box body, a feeding hopper, a screen body crushing device, a stirring device, a pretreatment device and a discharging device, wherein the feeding hopper is arranged on the box body; the upper end of the box body is communicated with the feeding hopper, the box body is internally provided with a screen body crushing device, the lower end of the screen body crushing device, corresponding to the position, is provided with a stirring device, the stirring device is communicated with the pretreatment device, and the stirring device is contacted with the discharging device.

As a further optimization of the technical scheme, the plastic particle feeding device of the cable processing equipment comprises a screen body motor, a first screen moving shaft, a first screen moving pulley, a second screen moving pulley, a screen moving connecting rod, a screen moving block, a first screen moving spring, a screen frame, a sliding strip block, a first screen moving belt pulley, a second screen moving belt pulley, a third screen body belt pulley, a screen body transmission belt, a second screen moving shaft, a third screen body shaft, a first screen body transmission wheel, a first screen body hinge rod, a second screen body hinge rod, a transmission plate, a third screen body hinge rod and a second screen moving spring; the main shaft of the screen body motor is connected with a first screen movable shaft through a coupling, the first screen movable shaft is connected with a first inclined screen movable pulley, the first screen movable pulley is meshed with a second screen movable pulley in a triangular prism shape, the second screen movable pulley is fixedly connected with a screen movable connecting rod, the screen movable connecting rod is sleeved in the screen movable block, the screen movable block is fixedly connected with a box body, the second screen movable pulley is fixedly connected with the screen movable block through a first screen movable spring, the screen movable connecting rod is fixedly connected with a screen frame, two ends of the screen frame are provided with sliding strip blocks which are fixedly connected, the sliding strip blocks are clamped in sliding grooves of the box body, the first screen movable shaft is provided with a first screen movable pulley, the first screen movable pulley is connected with three groups of second screen movable pulleys and a plurality of groups of third screen body pulleys through a screen body driving belt, and each group of third screen body pulleys is arranged on the second screen movable shaft, the second sieve moving shaft is arranged in the box body, each group of second sieve moving belt wheels are arranged on a third sieve body shaft, an eccentric first sieve body driving wheel is arranged on the third sieve body shaft, a first sieve body hinge rod is arranged on the first sieve body driving wheel and hinged to the second sieve body hinge rod, the second sieve body hinge rod is connected with a driving plate, the driving plate is connected with the sieve frame, a third sieve body hinge rod in the shape of Arabic numerals '7' is arranged on the second sieve body hinge rod, the third sieve body hinge rod is fixedly connected with the sieve frame through a second sieve moving spring, and the third sieve body hinge rod is further hinged to the sieve frame.

As a further optimization of the technical scheme, the plastic particle feeding device of the cable processing equipment comprises a stirring shell, a first stirring transmission shaft, a first stirring belt wheel, a second stirring belt wheel, a stirring connecting belt, a first stirring worm, a first stirring turbine, a first stirring wheel, a first stirring transmission connecting rod, a first stirring shaft, a second stirring transmission connecting rod, a stirring plate, a stirring slider, a stirring transmission rod and a third stirring transmission connecting rod; a first stirring transmission shaft is arranged in the stirring shell, a first stirring belt wheel is arranged on the first stirring transmission shaft, the first stirring belt wheel is connected with a second stirring belt wheel through a stirring connecting belt, the second stirring belt wheel is arranged on a first stirring worm, the first stirring worm is meshed with a first stirring turbine, the first stirring turbine is arranged on a second sieving shaft, the first stirring transmission shaft penetrates through the stirring shell to be connected with a first stirring wheel, a first stirring transmission connecting rod is arranged on the first stirring wheel, the first stirring transmission connecting rod is connected with a first stirring shaft, a plurality of groups of second stirring transmission connecting rods are sleeved on the first stirring shaft, each group of second stirring transmission connecting rods are connected with a stirring plate, each group of second stirring transmission connecting rods are hinged with stirring sliders, and each group of stirring sliders is connected with each other through a stirring transmission rod, and the stirring slide blocks are fixedly connected with a third stirring transmission connecting rod, the third stirring transmission connecting rod is hinged with the stirring shell, the bottom end of the stirring shell is connected with a discharging device, and the side surface of the stirring shell is connected with a pretreatment device.

As a further optimization of the technical scheme, the plastic particle feeding device of the cable processing equipment comprises a fan, an air outlet pipe, an air outlet plate, a first air outlet wheel, a first control shaft, a second air outlet wheel, an air outlet control rod, a third air outlet wheel, a second control shaft and a control handle, wherein the fan is arranged on the front end of the fan; the fan is linked together with the play tuber pipe, it can with play tuber pipe fixed connection to go out the tuber pipe to pass the stirring, it contacts with first air-out wheel to go out the tuber pipe, first air-out wheel links to each other with first control shaft, be provided with second air-out wheel on the first control shaft, processing has the meshing groove on the second air-out wheel, the meshing groove meshes with the air-out control lever mutually, set up on the air-out control lever on the third air-out wheel, processing has two sets of transmission grooves on the third air-out wheel, third air-out wheel sets up on the second control shaft, the second control shaft passes the box and links to each other with brake valve lever.

As a further optimization of the technical scheme, the plastic particle feeding device of the cable processing equipment comprises a first discharging bottom plate, a discharging block, a first discharging shaft, a discharging handle, a discharging fixed block, a fixed spring, a discharging transmission block, a discharging fixture block, a discharging connecting rod, a second discharging shaft and a discharging transmission spring; the bottom end of the stirring shell is in contact with a first discharging bottom plate with a trapezoidal cross section, the bottom end of the first discharging bottom plate is fixedly connected with a discharging block, the discharging block is connected with a first discharging shaft, the first discharging shaft is fixedly connected with a discharging handle, the discharging handle is connected with a discharging fixed block through a fixed spring, the discharging fixed block is meshed with a box body through a fixed groove, an inverted V-shaped discharging transmission block is arranged on the first discharging shaft, the discharging transmission block is in contact with a discharging clamping block, the discharging clamping block is connected with an L-shaped discharging connecting rod, the discharging connecting rod is arranged on a second discharging shaft, the second discharging shaft is sleeved with the first discharging block through a bearing, the first discharging block is connected with the second discharging block through a discharging transmission spring, and the second discharging block is sleeved on a third discharging shaft.

The plastic particle feeding device of the cable processing equipment has the beneficial effects that:

the invention relates to the technical field of cable processing, in particular to a plastic particle feeding device of cable processing equipment;

through the sieve body crushing device; the screen frame crushing device can screen plastic granules, can pass through the entering into device of reel with plastic granules in, the biggest specification of the granule in the control device that drops guarantees that plastic granules can be complete in the finite time handles, even if plastic granules of big granule also can twist into the device with plastic granules through handling in, makes the effect that all granules can both adapt to the machine.

By being provided with a stirring device; agitating unit uses with preprocessing device in coordination, guarantee that all plastic granules can be complete by blowing, reduce inside humidity, prevent that local bonding from causing the influence to processing, and agitating unit is provided with the multiunit, guarantee the intensive mixing of the plastic granules in the agitating unit, the orbit of stirring is through dividing into the lot at all plastic granules, make the plastic granules of upper portion can exchange with following plastic granules, realize the complete preprocessing, and the stirring can prevent plastic granules when having viscidity, glue together.

By providing a pre-treatment device; preprocessing device can reduce the humidity between the plastic granules through blowing, thereby reduce the viscidity between the plastic granules, and preprocessing device can be according to the time of improving the processing, the permeability that changes wind through the aperture that changes the wind and blow, the volume of wind is certain, when the aperture that blows diminishes, the dynamics of wind can the grow, be fit for local processing, when the aperture grow that blows, the dynamics of wind can reduce, be fit for the processing of large tracts of land, adjust in good time according to particular case.

By arranging the blanking device; the unloader can be according to what of demand timely adjustment unloading, and can adjust through the unloading handle, change how much that the unloading just can be adjusted to the finding, make it laborsaving, moreover, at the initial stage of unloading, the plastic granules in the stirring shell can have the gravity deviation, adjustment handle makes the handle no longer fixed, can the unloading, uses manpower sparingly more, and unloader can both sides unloading, guarantees that the people on unloading both sides can both carry out the unloading.

Drawings

The following is combined with the attached drawings; the present invention will be described in further detail with reference to specific embodiments.

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

Fig. 2 is a schematic view of the overall structure of the present invention.

FIG. 3 is a first schematic structural diagram of the screen body crushing device of the present invention.

FIG. 4 is a schematic structural diagram of a screen body grinding device according to the present invention.

FIG. 5 is a third schematic structural view of the screen body crushing apparatus of the present invention.

FIG. 6 is a fourth schematic structural view of the screen body grinding apparatus of the present invention.

FIG. 7 is a schematic structural diagram of a screen body grinding apparatus according to the present invention.

FIG. 8 is a schematic diagram of a screen size reduction apparatus according to the present invention.

Fig. 9 is a first structural schematic diagram of the stirring device of the present invention.

Fig. 10 is a second schematic structural view of the stirring device of the present invention.

FIG. 11 is a first schematic structural diagram of the pretreatment device of the present invention.

FIG. 12 is a second schematic structural diagram of the pretreatment device of the present invention.

FIG. 13 is a third schematic structural view of the pretreatment device of the present invention.

FIG. 14 is a fourth schematic structural view of the pretreatment device of the present invention.

FIG. 15 is a schematic structural diagram of a pretreatment device according to a fifth embodiment of the present invention.

Fig. 16 is a first structural schematic diagram of the blanking device of the present invention.

Fig. 17 is a second schematic structural view of the blanking device of the present invention.

Fig. 18 is a third schematic structural view of the blanking device of the present invention.

In the figure: a box body 1; feeding into a hopper 2; a screen body crushing device 3; a stirring device 4; a pretreatment device 5; a blanking device 6; a screen body motor 3-1; 3-2 parts of a first screening shaft; a first screen pulley 3-3; 3-4 parts of a second screen movable pulley; 3-5 parts of a screening connecting rod; 3-6 parts of a screening block; a first sifting spring 3-7; 3-8 parts of a screen frame; 3-9 of a sliding strip block; 3-10 parts of a first screen moving belt wheel; a second screen moving belt wheel 3-11; a third screen body belt wheel 3-12; a screen body transmission belt 3-13; 3-14 parts of a second screening shaft; a third screen shaft 3-15; a first screen body transmission wheel 3-16; the first screen body hinge rod 3-17; the second screen body hinge rod 3-18; drive plates 3-19; 3-20 parts of a third screen body hinge rod; a second sifting spring 3-21; 4-1 of a stirring shell; a first stirring transmission shaft 4-2; a first stirring belt wheel 4-3; 4-4 of a second stirring belt wheel; 4-5 of a stirring connecting belt; 4-6 parts of a first stirring worm; a first stirring turbine 4-7; 4-8 parts of a first stirring wheel; a first stirring transmission connecting rod 4-9; 4-10 parts of a first stirring shaft; a second stirring transmission connecting rod 4-11; 4-12 parts of a stirring plate; 4-13 parts of a stirring slide block; 4-14 parts of a stirring transmission rod; a third stirring transmission connecting rod 4-15; 5-1 of a fan; 5-2 of an air outlet pipe; 5-3 of an air outlet plate; a first wind outlet wheel 5-4; a first control shaft 5-5; 5-6 of a second wind outlet wheel; 5-7 parts of an air outlet control rod; 5-8 parts of a third wind outlet wheel; a second control shaft 5-9; 5-10 parts of a control handle; a first discharging bottom plate 6-1; 6-2 parts of a blanking block; a first blanking shaft 6-3; 6-4 of a blanking handle; 6-5 parts of a blanking fixing block; 6-6 parts of a fixed spring; 6-7 of a blanking transmission block; 6-8 parts of a blanking fixture block; 6-9 parts of a blanking connecting rod; 6-10 parts of a second blanking shaft; and 6-11 parts of blanking transmission springs.

Detailed Description

The first embodiment is as follows:

the invention relates to the technical field of cable processing, in particular to a plastic particle feeding device of cable processing equipment, which is combined with figures 1-18 to solve the technical problems, and comprises a box body 1, a feeding hopper 2, a screen body crushing device 3, a stirring device 4, a pretreatment device 5 and a blanking device 6, wherein the upper end of the box body 1 is communicated with the feeding hopper 2, the screen body crushing device 3 is arranged in the box body 1, the stirring device 4 is arranged at the lower end of the corresponding position of the screen body crushing device 3, the stirring device 4 is communicated with the pretreatment device 5, and the stirring device 4 is contacted with the blanking device 6;

the feeding hopper 2 is positioned at the lower end of the discharging hopper, plastic particles enter the screen body grinding device 3 through the feeding hopper 2, the screen body grinding device 3 can screen the plastic particles to prevent the increase of processing time in subsequent processing, the screen body grinding device 3 can grind the plastic particles into small particles in a screen body to avoid the need of guiding out the particles, steps are added, the screen body device can vibrate the plastic particles to enable the grinding device to grind more effectively, the stirring device 4 is matched with the pretreatment device 5 to pretreat the plastic particles with viscosity to prevent the plastic extruding machine from processing the plastic unevenly, the stirring device 4 can thoroughly pretreat the particles with viscosity to enable the dehumidification to be more uniform, the size of the wind power pretreatment device 5 can adjust the size of the wind power according to the use environment, unloader 6 can carry out the ejection of compact with the plastic granules after the dehumidification.

The second embodiment is as follows:

referring to fig. 1-18, the present embodiment will be described, and the present embodiment further describes the first embodiment, wherein the screen body crushing device 3 comprises a screen body motor 3-1; 3-2 parts of a first screening shaft; a first screen pulley 3-3; 3-4 parts of a second screen movable pulley; 3-5 parts of a screening connecting rod; 3-6 parts of a screening block; a first sifting spring 3-7; 3-8 parts of a screen frame; 3-9 of a sliding strip block; 3-10 parts of a first screen moving belt wheel; a second screen moving belt wheel 3-11; a third screen body belt wheel 3-12; a screen body transmission belt 3-13; 3-14 parts of a second screening shaft; a third screen shaft 3-15; a first screen body transmission wheel 3-16; the first screen body hinge rod 3-17; the second screen body hinge rod 3-18; drive plates 3-19; 3-20 parts of a third screen body hinge rod; a second sifting spring 3-21; the main shaft of the screen body motor 3-1 is connected with a first screen shaft 3-2 through a coupling, the first screen shaft 3-2 is connected with an inclined first screen moving pulley 3-3, the first screen moving pulley 3-3 is meshed with a triangular prism-shaped second screen moving pulley 3-4, the second screen moving pulley 3-4 is fixedly connected with a screen moving connecting rod 3-5, the screen moving connecting rod 3-5 is sleeved in a screen moving block 3-6, the screen moving block 3-6 is fixedly connected with the box body 1, the second screen moving pulley 3-4 is fixedly connected with the screen moving block 3-6 through a first screen moving spring 3-7, the screen moving connecting rod 3-5 is fixedly connected with a screen frame 3-8, two ends of the screen frame 3-8 are provided with sliding strip blocks 3-9, the sliding bar blocks 3-9 are clamped in a sliding groove of the box body 1, a first screen moving belt wheel 3-10 is arranged on a first screen moving shaft 3-2, the first screen moving belt wheel 3-10 is connected with three groups of second screen moving belt wheels 3-11 and a plurality of groups of third screen belt wheels 3-12 through screen body transmission belts 3-13, each group of third screen belt wheels 3-12 is arranged on a second screen moving shaft 3-14, the second screen moving shaft 3-14 is arranged in the box body 1, each group of second screen moving belt wheels 3-11 is arranged on a third screen body shaft 3-15, an eccentric first screen body transmission wheel 3-16 is arranged on the third screen body shaft 3-15, a first screen body hinge rod 3-17 is arranged on the first screen body transmission wheel 3-16, the first screen body hinge rod 3-17 is hinged with a second screen body hinge rod 3-18, the second screen body hinge rod 3-18 is connected with a transmission plate 3-19, the transmission plate 3-19 is connected with a screen frame 3-8, a third screen body hinge rod 3-20 in an Arabic numeral '7' shape is arranged on the second screen body hinge rod 3-18, the third screen body hinge rod 3-20 is fixedly connected with the screen frame 3-8 through a second screen moving spring 3-21, and the third screen body hinge rod 3-20 is further hinged with the screen frame 3-8;

the main shaft of the sieving motor can drive the first sieving shaft 3-2 to rotate, and further drive the first sieving pulley 3-3 to rotate, because the cross section of the first sieving pulley 3-3 is parallelogram, the first sieving pulley 3-3 is contacted with the second sieving pulley 3-4 in the rotating process, the triangular prism shape of the second sieving pulley 3-4 can ensure that the first sieving pulley 3-3 is completely contacted, the shape of the first sieving pulley 3-3 can drive the second sieving pulley 3-4 to transversely displace in the rotating process, and further drive the sieving connecting rod 3-5 to move, under the state of transverse displacement, the sieving connecting rod 3-5 can move in the sieving block 3-6, and the diameter of the first sieving pulley 3-3 is the shaft center when the diameter of the first sieving pulley 3-3 moves to the second sieving pulley 3-4 from the small diameter to the large diameter, the first sieve-moving pulley 3-3 can drive the second sieve-moving pulley 3-4 to move, the first sieve-moving spring 3-7 is compressed, when the diameter of the first sieve-moving pulley 3-3 moves from large to small, the stretched first sieve-moving spring 3-7 can drive the second sieve-moving pulley 3-4 to keep engaged with the first sieve-moving pulley 3-3 under the action of elastic force, so that the first sieve-moving pulley 3-3 can always drive the second sieve-moving pulley 3-4 to move, the sieve-moving connecting rod 3-5 can move back and forth, so that the sieve body can move back and forth, so as to sieve plastic particles, and the sliding strip blocks 3-9 move in the sliding grooves on the box body 1 during the back and forth movement of the sliding strip blocks 3-9, so that the sliding strip blocks 3-9 can limit the height of the sieve body to be kept unchanged, and the rotation of the first sieve moving shaft 3-2 can drive the rotation of the first sieve moving belt wheel 3-10, each group of second sieve moving belt wheels 3-11 and each group of third sieve moving belt wheels can be driven by the sieve moving connecting belt to rotate, each group of third sieve moving belt wheels can drive the rotation of the second sieve moving shaft 3-14, the second sieve moving shafts 3-14 are arranged in the box body 1, so that the third sieve moving belt wheels can limit the position of the sieve moving connecting belt, the situation that each group of second sieve moving belt wheels 3-11 are driven to move without power in the process that the second sieve moving belt wheels 3-11 move in the sieve frame 3-8 is prevented, the rotation of the second sieve moving belt wheels 3-11 drives the rotation of the third sieve shaft 3-15 to further drive the first sieve body driving wheel 3-16, because the first sieve body driving wheel 3-16 is in eccentric transmission, in the process that the first screen body driving wheels 3-16 can drive the first screen body hinge rods 3-17 to rotate, the first screen body hinge rods 3-17 are horizontally displaced, and then each group of driving plates 3-19 can be driven to move oppositely through the second screen body hinge rods 3-18; the plastic particles which can not reach the size standard can be crushed in the process of the opposite movement, the plastic particles which do not meet the size standard can be uniformly mixed by matching with the screen frame 3-8 in the process of the opposite movement to prepare for the next work, one end of the third screen body hinge rod 3-20 can be driven to move along with the transmission plate 3-19 when the transmission plate 3-19 moves together, the second screen moving spring 3-21 is pressed at the other end, the transmission plate 3-19 can be driven to return to the original position under the action of the elastic force of the second screen moving spring 3-21 when the transmission plate 3-19 moves together, the second screen moving spring 3-21 can be stretched through the third screen body hinge rod 3-20 in the process of the opposite movement, and in the same way, in the process of the return to the original position, further driving the sieve moving plate to return to the original position, and preventing the first sieve body hinge rod from 3-17; the movements of the hinge rods 3-18 of the second screen body are deviated.

The third concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 18, and the second embodiment will be further described in the present embodiment, in which the stirring device 4 includes a stirring housing 4-1; a first stirring transmission shaft 4-2; a first stirring belt wheel 4-3; 4-4 of a second stirring belt wheel; 4-5 of a stirring connecting belt; 4-6 parts of a first stirring worm; a first stirring turbine 4-7; 4-8 parts of a first stirring wheel; a first stirring transmission connecting rod 4-9; 4-10 parts of a first stirring shaft; a second stirring transmission connecting rod 4-11; 4-12 parts of a stirring plate; 4-13 parts of a stirring slide block; 4-14 parts of a stirring transmission rod; a third stirring transmission connecting rod 4-15; a first stirring transmission shaft 4-2 is arranged in the stirring shell 4-1, a first stirring belt wheel 4-3 is arranged on the first stirring transmission shaft 4-2, the first stirring belt wheel 4-3 is connected with a second stirring belt wheel 4-4 through a stirring connecting belt 4-5, the second stirring belt wheel 4-4 is arranged on a first stirring worm 4-6, the first stirring worm 4-6 is meshed with a first stirring turbine 4-7, the first stirring turbine 4-7 is arranged on a second sieving shaft 3-14, the first stirring transmission shaft 4-2 penetrates through the stirring shell 4-1 to be connected with a first stirring wheel 4-8, a first stirring transmission connecting rod 4-9 is arranged on the first stirring wheel 4-8, and the first stirring transmission connecting rod 4-9 is connected with a first stirring shaft 4-10, a plurality of groups of second stirring transmission connecting rods 4-11 are sleeved on the first stirring shaft 4-10, each group of second stirring transmission connecting rods 4-11 is connected with a stirring plate 4-12, each group of second stirring transmission connecting rods 4-11 is hinged with a stirring slider 4-13, each group of stirring sliders 4-13 is connected through a stirring transmission rod 4-14, one group of stirring sliders 4-13 is fixedly connected with a third stirring transmission connecting rod 4-15, the third stirring transmission connecting rod 4-15 is hinged with a stirring shell 4-1, the bottom end of the stirring shell 4-1 is connected with a blanking device 6, and the side surface of the stirring shell 4-1 is connected with a pretreatment device 5;

the rotation of the second sieving shaft 3-14 can drive the rotation of the first stirring turbine 4-7 and further drive the rotation of the first stirring worm 4-6, so that the second stirring belt wheel 4-4 rotates therewith, the rotation of the first stirring belt wheel 4-3 can be driven by the stirring connecting belt 4-5, so that the first stirring transmission shaft 4-2 rotates therewith, the first stirring transmission shaft 4-2 can drive the rotation of the first stirring wheel 4-8, the first stirring wheel 4-8 can drive the rotation of the first stirring transmission connecting rod 4-9, during the rotation of the first stirring wheel 4-8, the first stirring wheel 4-8 can drive the height of the first stirring transmission connecting rod 4-9 to perform circular arc transmission, and the first stirring transmission connecting rod 4-9 can drive the circular arc transmission of the first stirring shaft 4-10, one end of the second stirring transmission connecting rod 4-11 is driven in a circular arc manner, the second stirring transmission connecting rod 4-11 is hinged with the stirring slide block 4-13, so that the movement of the third stirring transmission connecting rod 4-15 is further driven, the movement of the second stirring transmission connecting rod 4-11 can be limited, the second stirring transmission connecting rod 4-11 is prevented from being separated from the track in the movement process, and the second stirring connecting rod moves in an arc way at the other end of the second stirring transmission connecting rod 4-11 in the moving process of the stirring sliding block 4-13, the movement of each group of stirring sliding blocks 4-13 can drive each group of stirring sliding blocks 4-13 to move through the movement of the stirring transmission rod 4-14 between each group of stirring sliding blocks 4-13, and the second stirring transmission connecting rod 4-11 can drive the stirring plate 4-12 to stir the plastic particles, so that the pretreatment is more uniform.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 18, and the present embodiment further describes the first embodiment, in which the pretreatment device 5 includes a fan 5-1; 5-2 of an air outlet pipe; 5-3 of an air outlet plate; a first wind outlet wheel 5-4; a first control shaft 5-5; 5-6 of a second wind outlet wheel; 5-7 parts of an air outlet control rod; 5-8 parts of a third wind outlet wheel; a second control shaft 5-9; 5-10 parts of a control handle; the fan 5-1 is communicated with the air outlet pipe 5-2, the air outlet pipe 5-2 can be fixedly connected with the air outlet plate 5-3 by penetrating through stirring, the air outlet plate 5-3 is contacted with a first air outlet wheel 5-4, the first air outlet wheel 5-4 is connected with a first control shaft 5-5, a second wind outlet wheel 5-6 is arranged on the first control shaft 5-5, an engagement groove is processed on the second wind outlet wheel 5-6, the meshing groove is meshed with the air outlet control rod 5-7, the air outlet control rod 5-7 is arranged on the third air outlet wheel 5-8, two groups of transmission grooves are processed on the third wind outlet wheel 5-8, the third wind outlet wheel 5-8 is arranged on a second control shaft 5-9, the second control shaft 5-9 penetrates through the box body 1 and is connected with the control handle 5-10;

the control handle 5-10 can drive the second control shaft 5-9 to rotate by rotating the control handle 5-10, further drive the third wind outlet wheel 5-8 to rotate, so that the third wind outlet wheel 5-8 rotates along with the control handle, the wind outlet control rod 5-7 can be driven to rotate in the rotating process of the third wind outlet wheel 5-8, the wind outlet control rod 5-7 can be meshed with the meshing groove on the second wind outlet wheel 5-6 to drive the second wind outlet wheel 5-6 to move intermittently, the second wind outlet wheel 5-6 can drive the first control shaft 5-5 to rotate, so that the first wind outlet wheel 5-4 rotates along with the first wind outlet wheel, the size of the hole between the first wind outlet wheel 5-4 and the wind outlet plate 5-3 is changed, when the hole between the first wind outlet wheel 5-4 and the wind outlet plate 5-3 is the largest, at this time, the air outlet area is the largest, but is warm; the air is suitable for drying in a large area, when the hole between the first air outlet wheel 5-4 and the air outlet plate 5-3 is the smallest, the air outlet area is the smallest, the force of the air is the largest, the dehumidification is suitable for local, and the situation that the subsequent processing can be influenced by the pastiness among plastic particles, the extrusion molding is influenced, and finally defective products are generated is prevented.

The fifth concrete implementation mode:

the third embodiment is further described below with reference to fig. 1 to 18, in which the discharging device 6 includes a first discharging bottom plate 6-1; 6-2 parts of a blanking block; a first blanking shaft 6-3; 6-4 of a blanking handle; 6-5 parts of a blanking fixing block; 6-6 parts of a fixed spring; 6-7 of a blanking transmission block; 6-8 parts of a blanking fixture block; 6-9 parts of a blanking connecting rod; 6-10 parts of a second blanking shaft; 6-11 parts of a blanking transmission spring; the bottom end of the stirring shell 4-1 is contacted with a first discharging bottom plate 6-1 with a trapezoidal section, the bottom end of the first discharging bottom plate 6-1 is fixedly connected with a discharging block 6-2, the discharging block 6-2 is connected with a first discharging shaft 6-3, the first discharging shaft 6-3 is fixedly connected with a discharging handle 6-4, the discharging handle 6-4 is connected with a discharging fixed block 6-5 through a fixed spring 6-6, the discharging fixed block 6-5 is meshed with the box body 1 through a fixed groove, an inverted V-shaped discharging transmission block 6-7 is arranged on the first discharging shaft 6-3, the discharging transmission block 6-7 is contacted with a discharging clamping block 6-8, and the discharging clamping block 6-8 is connected with an L-shaped discharging connecting rod 6-9, the blanking connecting rod 6-9 is arranged on a second blanking shaft 6-10, the second blanking shaft 6-10 is sleeved with a first blanking block through a bearing, the first blanking block is connected with a second blanking block through a blanking transmission spring 6-11, and the second blanking block is sleeved on a third blanking shaft 6-12;

when the blanking fixing block 6-5 is pressed to separate the blanking fixing block 6-5 from the fixing groove of the box body 1, the blanking handle 6-4 is not restrained any more, the blanking handle 6-4 is manually driven, the blanking handle 6-4 can rotate at the moment, the rotation of the blanking handle 6-4 can drive the first blanking shaft 6-3 to rotate, when the first blanking shaft 6-3 rotates clockwise, the blanking drive block 6-7 can be driven to move, the blanking drive block 6-7 presses the blanking clamping block 6-8 to move downwards, one end of the blanking connecting rod 6-9 moves downwards, namely the other end of the blanking connecting rod 6-9 moves upwards, the third blanking shaft 6-12 drives the blanking drive spring 6-11 to stretch, when one side gravity of the plastic particles can drive the first blanking shaft 6-3 to rotate clockwise, the discharging bottom plate 6-1 slides out through the discharging bottom plate 6-1 to complete discharging, when the discharging bottom plate 6-1 can be kept stable through the elastic force of the discharging transmission spring 6-11, otherwise, plastic particles on the other side can be discharged, when the discharging bottom plate 6-1 is kept stable, the discharging bottom plate can be adjusted according to the using amount through rotating the discharging handle 6-4, when discharging is not needed, only the discharging transmission spring 6-11 needs to be pressed, the discharging fixing block 6-5 is placed in the fixing groove, and the position of the discharging handle 6-4 is fixed.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of technicians in the field, and the invention belongs to the common knowledge in the field and is mainly used for protecting mechanical devices, so the control mode is not explained in detail; and (6) connecting the circuits.

Of course, the above description is not intended to limit the invention, and the invention is not limited to the examples described, and variations within the spirit and scope of the invention may be made by those skilled in the art; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims (5)

1. A plastic particle feeding device of cable processing equipment comprises a box body (1), a feeding hopper (2), a screen body crushing device (3), a stirring device (4), a pretreatment device (5) and a discharging device (6); the method is characterized in that: the upper end of the box body (1) is communicated with the feeding hopper (2), a screen body crushing device (3) is arranged in the box body (1), a stirring device (4) is arranged at the lower end of the screen body crushing device (3) corresponding to the position, the stirring device (4) is communicated with the pretreatment device (5), and the stirring device (4) is in contact with the discharging device (6).

2. The plastic particle feeding device of a cable processing device according to claim 1, wherein: the screen body crushing device (3) comprises a screen body motor (3-1), a first screening shaft (3-2), a first screening movable pulley (3-3), a second screening movable pulley (3-4), a screening connecting rod (3-5), a screening block (3-6), a first screening spring (3-7), a screen frame (3-8), a sliding bar block (3-9), a first screening movable belt pulley (3-10), a second screening movable belt pulley (3-11), a third screen body belt pulley (3-12), a screen body transmission belt (3-13), a second screening shaft (3-14), a third screen body shaft (3-15), a first screen body transmission wheel (3-16), a first screen body hinge rod (3-17), a second screen body hinge rod (3-18), a transmission plate (3-19), A third screen body hinge rod (3-20) and a second screen moving spring (3-21); the main shaft of the screen body motor (3-1) is connected with a first screening shaft (3-2) through a coupling, the first screening shaft (3-2) is connected with a first inclined screening pulley (3-3), the first screening pulley (3-3) is meshed with a triangular prism-shaped second screening pulley (3-4), the second screening pulley (3-4) is fixedly connected with a screening connecting rod (3-5), the screening connecting rod (3-5) is sleeved in a screening block (3-6), the screening block (3-6) is fixedly connected with the box body (1), the second screening pulley (3-4) is fixedly connected with the screening block (3-6) through a first screening spring (3-7), the screening connecting rod (3-5) is fixedly connected with the screen frame (3-8), two ends of the screen frame (3-8) are provided with sliding bar blocks (3-9) which are fixedly connected, the sliding bar blocks (3-9) are clamped in a sliding groove of the box body (1), the first screen moving shaft (3-2) is provided with first screen moving belt wheels (3-10), the first screen moving belt wheels (3-10) are connected with three groups of second screen moving belt wheels (3-11) and a plurality of groups of third screen body belt wheels (3-12) through screen body transmission belts (3-13), each group of third screen body belt wheels (3-12) is arranged on the second screen moving shaft (3-14), the second screen moving shaft (3-14) is arranged in the box body (1), each group of second screen moving belt wheels (3-11) is arranged on the third screen body shaft (3-15), the third screen body shaft (3-15) is provided with an eccentric first screen body transmission wheel (3-16), the first screen body transmission wheel (3-16) is provided with a first screen body hinge rod (3-17), the first screen body hinge rod (3-17) is hinged to a second screen body hinge rod (3-18), the second screen body hinge rod (3-18) is connected with a transmission plate (3-19), the transmission plate (3-19) is connected with a screen frame (3-8), the second screen body hinge rod (3-18) is provided with a third screen body hinge rod (3-20) in an Arabic numeral '7' shape, the third screen body hinge rod (3-20) is fixedly connected with the screen frame (3-8) through a second screening spring (3-21), and the third screen body hinge rod (3-20) is further hinged to the screen frame (3-8).

3. The plastic particle feeding device of a cable processing device according to claim 1, wherein: the stirring device (4) comprises a stirring shell (4-1), a first stirring transmission shaft (4-2), a first stirring belt wheel (4-3), a second stirring belt wheel (4-4), a stirring connecting belt (4-5), a first stirring worm (4-6), a first stirring turbine (4-7), a first stirring wheel (4-8), a first stirring transmission connecting rod (4-9), a first stirring shaft (4-10), a second stirring transmission connecting rod (4-11), a stirring plate (4-12), a stirring slide block (4-13), a stirring transmission rod (4-14) and a third stirring transmission connecting rod (4-15); a first stirring transmission shaft (4-2) is arranged in the stirring shell (4-1), a first stirring belt wheel (4-3) is arranged on the first stirring transmission shaft (4-2), the first stirring belt wheel (4-3) is connected with a second stirring belt wheel (4-4) through a stirring connecting belt (4-5), the second stirring belt wheel (4-4) is arranged on a first stirring worm (4-6), the first stirring worm (4-6) is meshed with a first stirring turbine (4-7), the first stirring turbine (4-7) is arranged on a second screening shaft (3-14), the first stirring transmission shaft (4-2) penetrates through the stirring shell (4-1) to be connected with a first stirring wheel (4-8), and a first stirring transmission connecting rod (4-9) is arranged on the first stirring wheel (4-8), the first stirring transmission connecting rod (4-9) is connected with a first stirring shaft (4-10), a plurality of groups of second stirring transmission connecting rods (4-11) are sleeved on the first stirring shaft (4-10), each group of second stirring transmission connecting rods (4-11) is connected with a stirring plate (4-12), each group of second stirring transmission connecting rods (4-11) is hinged with a stirring slider (4-13), each group of stirring sliders (4-13) is connected with a stirring transmission rod (4-14), one group of stirring sliders (4-13) is fixedly connected with a third stirring transmission connecting rod (4-15), the third stirring transmission connecting rod (4-15) is hinged with a stirring shell (4-1), the bottom end of the stirring shell (4-1) is connected with a blanking device (6), the side surface of the stirring shell (4-1) is connected with a pretreatment device (5).

4. The plastic particle feeding device of a cable processing device according to claim 1, wherein: the pretreatment device (5) comprises a fan (5-1), an air outlet pipe (5-2), an air outlet plate (5-3), a first air outlet wheel (5-4), a first control shaft (5-5), a second air outlet wheel (5-6), an air outlet control rod (5-7), a third air outlet wheel (5-8), a second control shaft (5-9) and a control handle (5-10); the air-out fan (5-1) is communicated with an air-out pipe (5-2), the air-out pipe (5-2) can be fixedly connected with an air-out plate (5-3) by penetrating through stirring, the air-out plate (5-3) is contacted with a first air-out wheel (5-4), the first air-out wheel (5-4) is connected with a first control shaft (5-5), a second air-out wheel (5-6) is arranged on the first control shaft (5-5), meshing grooves are processed on the second air-out wheel (5-6), the meshing grooves are meshed with an air-out control rod (5-7), the air-out control rod (5-7) is arranged on a third air-out wheel (5-8), two groups of transmission grooves are processed on the third air-out wheel (5-8), and the third air-out wheel (5-8) is arranged on a second control shaft (5-9), the second control shaft (5-9) penetrates through the box body (1) and is connected with the control handle (5-10).

5. The plastic particle feeding device of a cable processing device according to claim 1, wherein: the blanking device (6) comprises a first discharging bottom plate (6-1), a blanking block (6-2), a first blanking shaft (6-3), a blanking handle (6-4), a blanking fixed block (6-5), a fixed spring (6-6), a blanking transmission block (6-7), a blanking clamping block (6-8), a blanking connecting rod (6-9), a second blanking shaft (6-10), a blanking transmission spring (6-11) and a third blanking shaft (6-12); the bottom end of the stirring shell (4-1) is in contact with a first discharging bottom plate (6-1) with a trapezoidal section, the bottom end of the first discharging bottom plate (6-1) is fixedly connected with a discharging block (6-2), the discharging block (6-2) is connected with a first discharging shaft (6-3), the first discharging shaft (6-3) is fixedly connected with a discharging handle (6-4), the discharging handle (6-4) is connected with a discharging fixed block (6-5) through a fixed spring (6-6), the discharging fixed block (6-5) is meshed with the box body (1) through a fixed groove, a reversed V-shaped discharging transmission block (6-7) is arranged on the first discharging shaft (6-3), and the discharging transmission block (6-7) is in contact with a discharging clamping block (6-8), the blanking fixture block (6-8) is connected with an L-shaped blanking connecting rod (6-9), the blanking connecting rod (6-9) is arranged on a second blanking shaft (6-10), the second blanking shaft (6-10) is sleeved with a first blanking block through a bearing, the first blanking block is connected with the second blanking block through a blanking transmission spring (6-11), and the second blanking block is sleeved on a third blanking shaft (6-12).

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