Polystyrene foam plastic particle forming machine
阅读说明:本技术 聚苯乙烯泡沫塑料颗粒成型机 (Polystyrene foam plastic particle forming machine ) 是由 祝磊 潘长霞 于 2019-10-29 设计创作,主要内容包括:本发明提供了聚苯乙烯泡沫塑料颗粒成型机,其包括水平放置于地面的安装架体,安装架体上设置有熔融输送装置、转模成型装置、水分离输出装置,熔融输送装置用于对塑料碎片进行熔化加热处理并对熔融态塑料进行杂质过滤后再将其输送至转模成型装置内,转模成型装置用于接收熔融态塑料并依次对其进行冷却呈软固态、切断呈颗粒状、水冷成型处理,水分离输出装置用于接收塑料颗粒与水的混合物并对其进行分离处理;熔化过程中,其采用过滤板对熔融态塑料进行石子等杂质过滤,既保证了成型后的塑料颗粒品质,又避免了石子等杂质对本设备造成不利影响,绞龙的设置会将实时将杂质运输排出,使杂质不会出现影响熔融态塑料输送的堆积现象。(The invention provides a polystyrene foam plastic particle forming machine, which comprises an installation frame body horizontally placed on the ground, wherein a melting conveying device, a rotary die forming device and a water separation output device are arranged on the installation frame body, the melting conveying device is used for melting and heating plastic fragments and filtering impurities of molten plastic and then conveying the molten plastic into the rotary die forming device, the rotary die forming device is used for receiving the molten plastic and sequentially cooling the molten plastic into a soft solid state, cutting the molten plastic into granules and carrying out water cooling forming treatment, and the water separation output device is used for receiving a mixture of plastic granules and water and carrying out separation treatment on the mixture; in the melting process, the filtering plate is adopted to filter impurities such as stones in the molten plastic, so that the quality of the formed plastic particles is guaranteed, the adverse effect of the impurities such as the stones on the equipment is avoided, the auger is arranged to transport and discharge the impurities in real time, and the impurities cannot influence the conveying of the molten plastic.)
1. The polystyrene foam plastic particle forming machine is characterized by comprising an installation frame body horizontally placed on the ground, wherein the installation frame body is provided with a melting conveying device, a rotary die forming device and a water separation output device, the melting conveying device is used for melting and heating plastic fragments and filtering impurities of molten plastic and then conveying the molten plastic into the rotary die forming device, the rotary die forming device is used for receiving the molten plastic and sequentially cooling the molten plastic into a soft solid state, cutting the molten plastic into granules and performing water cooling forming treatment, and the water separation output device is used for receiving a mixture of plastic granules and water and performing separation treatment on the mixture;
the melting and conveying device comprises a melting mechanism, an impurity filtering mechanism, a conveying mechanism and a driving mechanism, wherein the melting mechanism is used for heating and melting plastic fragments, the impurity filtering mechanism is used for filtering impurities of molten plastic, the conveying mechanism is used for conveying the molten plastic to the rotary die forming device, and the driving mechanism is used for providing power for the operation of the impurity filtering mechanism and the conveying mechanism.
2. The apparatus as claimed in claim 1, wherein the melting mechanism comprises a melting tank with an open upper end, a closed lower end and fixed on the mounting frame, a melting heating element fixed outside the melting tank and used for providing heating power for melting plastic fragments, the closed end of the melting tank is coaxially provided with a fixed pipe communicated with the inner cavity of the melting tank, and the open end of the melting tank is matched with a melting end cover;
impurity filtering mechanism set up in the below of melting mechanism, impurity filtering mechanism includes the filtration pipeline, the connecting tube, the auger, the storage dish, the filtration pipeline comprises two parts and is vertical section respectively, the slope section, vertical section is vertical be fixed in on the installation support body and be connected the switch-on between vertical section top and the fixed pipeline, slope section slope is fixed in on the installation support body, switch-on each other and constitute cross arrangement between slope section and the vertical section, be provided with the filter with the switch-on position department of slope section on the vertical section, the filter is used for carrying out impurity filtration such as stone to the melting state plastics, the lower mouth of pipe matching of slope section installs fixed end cover.
3. The apparatus as claimed in claim 2, wherein the connecting pipe is fixed to the mounting frame in an inclined manner, and the inclined direction of the connecting pipe and the inclined direction of the inclined section of the filtering pipe are positioned on the same line, the lower pipe opening of the connecting pipe is connected to the upper pipe opening of the inclined section of the filtering pipe, and the upper pipe opening of the connecting pipe is fitted with a mounting end cap;
the device comprises a filter pipeline, a mounting end cover, a spiral surface and a plurality of groups of avoidance holes, wherein the mounting end cover is arranged at the lower end of the filter pipeline, the spiral surface is provided with a plurality of groups of avoidance holes at uniform intervals, and the avoidance holes are used for avoiding conveying molten plastic away in the process of rotating the spiral and conveying impurities such as stones and the like;
the outside of connecting tube still be provided with the ejection of compact mouth of being connected the switch-on rather than the inner chamber, the ejection of compact mouth is located connecting tube under and the ejection of compact mouth still is close to connecting tube's last mouth of pipe, storage disc horizontal fixation in on the installation support body and it still is located the ejection of compact mouth under.
4. The polystyrene foam plastic particle forming machine as claimed in claim 3, wherein the conveying mechanism is located below the impurity filtering mechanism, the conveying mechanism comprises a conveying pipeline and a pushing screw, the conveying pipeline is horizontally fixed on the mounting frame body, a connecting nozzle communicated with an inner cavity of the conveying pipeline is arranged outside the conveying pipeline, the connecting nozzle is located right above the conveying pipeline, and the connecting nozzle is communicated with a lower pipe orifice of a vertical section of the filtering pipeline;
a connecting bracket is arranged at one pipe orifice of the conveying pipeline, the pipe orifice is also connected and communicated with a material conveying joint, and a sealing end cover is arranged at the other pipe orifice of the conveying pipeline and is coaxially provided with an extending hole;
the pushing screw rod and the conveying pipeline are coaxially arranged, one end of the pushing screw rod is movably connected with the connecting support, the other end of the pushing screw rod penetrates through an extending hole formed in the sealing end cover and is movably connected with the mounting frame body, and the pushing screw rod can axially rotate around the pushing screw rod;
and a heat-insulating heating element used for insulating the molten plastic in the conveying pipeline and keeping the molten plastic in the conveying pipeline all the time is arranged outside the conveying pipeline in a matching manner.
5. The styrofoam particle forming machine according to claim 4, wherein the driving mechanism includes a driving motor, the driving motor is horizontally fixed to the mounting frame and has an output shaft axially parallel to the axial direction of the pushing screw, a first power transmission member is provided between a power output end of the driving motor and a power input end of the pushing screw, and the first power transmission member and the second power transmission member are connected and transmitted by a first power transmission member, a second power transmission member is provided between the power input end of the pushing screw and the power input end of the packing auger, and the second power transmission member are connected and transmitted by a second power transmission member, the first power transmission member is a belt transmission power transmission structure, and the second power transmission member is a bevel gear power transmission structure.
6. The apparatus as claimed in claim 4, wherein the rotary die forming device is located at a side of the pipe orifice of the delivery pipe, which is provided with the connecting bracket, and is away from the pipe orifice provided with the sealing end cover, the rotary die forming device includes a rotary die forming mechanism, an intermittent rotating mechanism and a water inlet mechanism, the rotary die forming mechanism is used for receiving the molten plastic and providing a die for converting the molten plastic into a solid particle structure, the intermittent rotating mechanism is used for driving the rotary die forming mechanism to periodically and intermittently rotate, and the water inlet mechanism is used for providing cooling water for the rotary die forming mechanism;
the rotary die forming mechanism comprises a fixed shell, a first die component and a second die component, the fixed shell is a cylindrical shell structure with openings at two ends and is coaxially arranged with the conveying pipeline, the fixed shell is fixed on the mounting frame body, and a discharging nozzle connected with an inner cavity of the fixed shell is arranged at the bottom of the fixed shell.
7. The apparatus as claimed in claim 6, wherein the second mold member comprises a mold shaft, a second mold body, and a fixing block, the mold shaft and the fixing housing are coaxially arranged, the mold shaft is located at a side of the fixing housing away from the conveying mechanism, a support bracket is provided between the mold shaft and the mounting frame body, the support bracket is fixed on the mounting frame body, the mold shaft is mounted on the support bracket through a bearing, and the mold shaft can axially rotate around itself;
the second die body is of a cylindrical structure, the second die body is coaxially positioned in the fixed shell, the second die body is also coaxially and fixedly connected with the die shaft, an installation groove in a circular groove structure is coaxially arranged on the end surface, facing the conveying mechanism, of the second die body, a second die hole communicated with the installation groove is further formed in the outer circular surface of the second die body, and a plurality of groups of the second die holes are arranged in an array manner along the circumferential direction of the second die body;
the fixed block is positioned on one side of the second die body, which is far away from the conveying mechanism, the fixed block is of a cylindrical structure and is coaxially fixed outside the die shaft, and the fixed block is also fixedly connected with the second die body in a sealing manner;
a water inlet channel net is arranged among the die shaft, the fixed block and the second die body, a water inlet groove is formed in the end face, away from the conveying mechanism, of the die shaft, a sealing sleeve head is installed on the end face in a matched mode, a first water inlet hole and a second water inlet hole are formed in the outer circular face of the die shaft, the first water inlet hole is close to the sealing sleeve head, the first water inlet hole is connected and communicated with the water inlet groove, a plurality of groups are arranged in the circumferential direction array of the die shaft, the second water inlet hole is close to the second die body, and a plurality of groups are arranged in the circumferential direction array of the die shaft;
the end face, facing the second die body, of the fixing block is coaxially provided with a first water inlet ring groove, the fixing block is also provided with a connecting hole for connecting and communicating the first water inlet ring groove and the second water inlet hole, and the connecting hole is correspondingly provided with a plurality of groups;
the end face, facing the fixed block, of the second die body is coaxially provided with a second water inlet ring groove connected and communicated with the water inlet ring groove, the second die body is also provided with a second through hole used for connecting and communicating the second water inlet ring groove and the second die hole, and the through holes are correspondingly provided with a plurality of groups;
the water inlet hole I, the water inlet groove, the water inlet hole II, the connecting hole, the water inlet ring groove I, the water inlet ring groove II and the connecting hole form a water inlet channel net of the second die component;
the area between the outer circular surface of the second die body and the shell wall of the fixed shell is a cooling forming area of the rotary die forming mechanism;
and a second closed end cover used for sealing between the second die component and the opening of the fixed shell deviating from the conveying mechanism is arranged between the second die component and the opening of the fixed shell in a matching manner.
8. The apparatus according to claim 7, wherein the first mold member is located on a side of the second mold member facing the conveying mechanism, the first mold member includes a first mold body, the first mold body is of a cylindrical structure, the first mold body is coaxially located in the installation groove of the second mold body, a supporting protrusion of a cylindrical protrusion structure is coaxially arranged on an end surface of the first mold body facing a bottom of the installation groove, a supporting groove is coaxially arranged on a bottom of the installation groove, a free end of the supporting protrusion is coaxially located in the supporting groove without interference therebetween, and an outer circumferential surface of the first mold body is in close contact with a wall of the installation groove;
the end surface of the first die body facing the conveying mechanism is coaxially provided with a feeding groove, a feeding nozzle is arranged at the notch of the feeding groove in a matched mode, and the free end of the feeding nozzle is communicated with a material conveying joint;
the outer circular surface of the first die body is also provided with a first die hole communicated with the feeding groove, the first die hole is also communicated with a second die hole, and the first die holes are correspondingly arrayed in a plurality of groups along the circumferential direction of the first die body;
the first die component and the opening of the fixed shell facing the conveying mechanism are provided with a first closed end cover used for sealing the first die component and the fixed shell in a matched mode, and the first die body is fixedly connected with the first closed end cover.
9. The apparatus according to claim 7, wherein the cooling and forming area of the rotary die forming mechanism is provided with a discharging member, the discharging member comprises a fixing ring and a discharging plate, the fixing ring is coaxially fixed outside the second die body, the discharging plate is fixed on the ring surface of the fixing ring, the large surface of the discharging plate is parallel to the axial direction of the fixing ring, the discharging plate is further positioned right above the die hole and arranged at an included angle with the die hole, and the discharging plate is correspondingly provided with a plurality of groups;
the water inlet mechanism comprises a water inlet pipeline and a rotary joint, the rotary joint is of a cylindrical structure with two open ends and built-in steps, the rotary joint is coaxially and movably sleeved outside the part of the die shaft provided with the water inlet hole I, the inner cavity of the rotary joint is communicated with the water inlet hole I, the rotary joint and the die shaft are not interfered with each other, and sealing rings are arranged between the two open ends of the rotary joint and the die shaft in a matched manner;
one end of the water inlet pipeline is connected with the rotary joint, and the other end of the water inlet pipeline is connected with the cooling water supply system;
the intermittent rotating mechanism comprises a rotating motor, a sheave member and a driving plate member, the sheave member comprises a driven sheave which is coaxially fixed outside the die shaft, a plurality of groups of concave locking arcs are arrayed on the outer circumferential surface of the driven sheave along the circumferential direction of the outer circumferential surface of the driven sheave, a radial groove is arranged between every two adjacent groups of concave locking arcs, the radial groove penetrates through the axial thickness of the driven sheave, and the guiding direction of the radial groove is parallel to the diameter direction of the driven sheave at the point;
the driving plate part comprises a driving plate shaft, an active driving plate and a cylindrical pin, wherein the axial direction of the driving plate shaft is parallel to the axial direction of the die shaft, the driving plate shaft is movably arranged on the support bracket and can rotate around the axial direction of the driving plate shaft, the active driving plate is coaxially fixed outside the driving plate shaft, a convex locking arc matched with the concave locking arc is arranged on the active driving plate, and the cylindrical pin is eccentrically arranged on the active driving plate and matched with the radial groove;
the axial direction of an output shaft of the rotating motor is parallel to the axial direction of the die shaft, the rotating motor is fixed on the mounting frame body, a third power transmission piece is arranged between the power output end of the rotating motor and the dial plate shaft, power is connected and transmitted between the third power transmission piece and the dial plate shaft through the third power transmission piece, and the third power transmission piece is of a belt transmission power transmission structure.
10. The apparatus as claimed in claim 6, wherein the water separating and outputting device comprises an output mechanism for receiving the mixture of plastic particles and water from the rotary die forming mechanism and separating the mixture to generate force, a power connecting mechanism for power connection between the output mechanism and the dial plate shaft, and a water receiving tank for receiving water separated and discharged from the output mechanism;
the output mechanism comprises a separation rotary drum, a material receiving pipeline and a material discharging pipeline, the separation rotary drum is of a cylindrical structure which is axially parallel to the axial direction of the die shaft and has openings at two ends, the separation rotary drum is movably arranged on the mounting frame body and can rotate around the axial direction of the separation rotary drum, and a plurality of groups of filtering holes are uniformly arranged on the outer circular surface of the separation rotary drum at intervals;
the material receiving pipeline is obliquely arranged, the highest end of the material receiving pipeline is fixedly connected and communicated with the discharging nozzle, the lowest end of the material receiving pipeline penetrates through one opening end of the separation rotary drum and extends into the separation rotary drum, and the other opening end of the separation rotary drum is provided with a fan in a matched mode;
a guide plate is obliquely fixed in the separation rotary drum, the highest point of the guide plate faces the material receiving pipeline, the lowest point of the guide plate faces the fan, the guide plate is arranged in an axial array of the separation rotary drum and is provided with a plurality of groups, and the groups of guide plates are distributed in a stepped manner;
the separation drum is provided with an opening end of the fan and a discharging sleeve in a bearing installation mode, the discharging pipeline is obliquely arranged, and the highest end of the discharging pipeline is communicated with the discharging sleeve;
the power connecting mechanism comprises a transmission shaft, the transmission shaft is coaxially and fixedly connected with the dial plate shaft, a power connecting piece is arranged between the transmission shaft and the separating rotary drum and forms power connection transmission between the transmission shaft and the separating rotary drum, and the power connecting piece is of a V-belt transmission structure;
the water receiving tank is fixed on the mounting frame body and is also positioned under the separation rotary drum, the bottom of the water receiving tank is connected and communicated with a water outlet pipeline, and the water outlet pipeline is connected and communicated with a cooling water supply system.
Technical Field
The invention relates to the field of plastic processing, in particular to equipment for carrying out particle forming processing on waste plastic.
Background
The regenerated plastic granules have wide application space, in daily life, the regenerated granules can be used for manufacturing various plastic bags, barrels, basins, toys, furniture, stationery and other living appliances and various plastic products, in the aspect of clothing industry, clothes, ties, buttons, zippers, building materials, derivative plastic wood profiles of the regenerated plastic granules for manufacturing various building components, plastic doors and windows and the like, in the aspect of chemical industry, reaction kettles, pipelines, containers, pumps, valves and the like can be manufactured, the regenerated granules are applied to chemical production places for solving corrosion and abrasion, in agriculture, agricultural films, water pumping pipes, agricultural machines and tools, fertilizer packaging bags and cement packaging bags can be manufactured, in addition, the regenerated granules are also widely applied to the electrical industry and the telecommunication industry, the existing plastic granule manufacturing method is generally that an extruder is used for extruding and molding a plastic polymer in a molten state from a port mould through a screw rod, the plastic strip is required to be cut after molding, plastic particles are finally obtained, the cooling effect of the method cannot be controlled, the granulation quality is influenced, the problem that the plastic particles are easy to adhere is caused, and the particle size of the manufactured plastic particles is not uniform.
Disclosure of Invention
In order to solve the defects of the prior art, the invention aims to provide equipment for performing particle forming processing on waste plastics, which can filter impurities such as stones contained in molten plastics in the melting process of plastic fragments, thereby not only ensuring the quality of the formed plastic particles, but also avoiding the adverse effect of the impurities such as the stones on the equipment.
In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.
The polystyrene foam plastic particle forming machine comprises an installation frame body horizontally placed on the ground, wherein a melting conveying device, a rotary die forming device and a water separation output device are arranged on the installation frame body, the melting conveying device is used for melting and heating plastic fragments and filtering impurities of molten plastic and then conveying the molten plastic into the rotary die forming device, the rotary die forming device is used for receiving the molten plastic, sequentially cooling the molten plastic to form a soft solid state, cutting the molten plastic into granules and performing water cooling forming treatment, and the water separation output device is used for receiving a mixture of plastic granules and water and performing separation treatment on the mixture.
The technical scheme is further improved and optimized.
The melting and conveying device comprises a melting mechanism, an impurity filtering mechanism, a conveying mechanism and a driving mechanism, wherein the melting mechanism is used for heating and melting plastic fragments, the impurity filtering mechanism is used for filtering impurities of molten plastic, the conveying mechanism is used for conveying the molten plastic into the rotary die forming device, and the driving mechanism is used for providing power for the operation of the impurity filtering mechanism and the conveying mechanism;
the melting mechanism comprises a melting tank body with an upper end opening and a lower end being closed and fixed on the mounting frame body, and a melting heating element fixed outside the melting tank body and used for providing heating power for melting plastic fragments, wherein the closed end of the melting tank body is coaxially provided with a fixed pipeline communicated with an inner cavity of the melting tank body, and the open end of the melting tank body is provided with a melting end cover in a matching manner.
The technical scheme is further improved and optimized.
The impurity filtering mechanism is arranged below the melting mechanism and comprises a filtering pipeline, a connecting pipeline, an auger and a storage disc, wherein the filtering pipeline consists of two parts which are respectively a vertical section and an inclined section, the vertical section is vertically fixed on the mounting frame body, the top end of the vertical section is connected and communicated with the fixed pipeline, the inclined section is obliquely fixed on the mounting frame body, the inclined section and the vertical section are communicated with each other and are arranged in a cross way, a filtering plate is arranged at the position where the vertical section is communicated with the inclined section and is used for filtering impurities such as stones and the like from molten plastic, and a lower pipe orifice of the inclined section is matched with and provided with a fixed end cover;
the connecting pipeline is obliquely fixed on the mounting frame body, the oblique direction of the connecting pipeline and the oblique direction of the oblique section of the filtering pipeline are positioned on the same straight line, the lower pipe orifice of the connecting pipeline is communicated with the upper pipe orifice of the oblique section of the filtering pipeline, and the upper pipe orifice of the connecting pipeline is matched with the mounting end cover;
the device comprises a filter pipeline, a mounting end cover, a spiral surface and a plurality of groups of avoidance holes, wherein the mounting end cover is arranged at the lower end of the filter pipeline, the spiral surface is provided with a plurality of groups of avoidance holes at uniform intervals, and the avoidance holes are used for avoiding conveying molten plastic away in the process of rotating the spiral and conveying impurities such as stones and the like;
the outside of connecting tube still be provided with the ejection of compact mouth of being connected the switch-on rather than the inner chamber, the ejection of compact mouth is located connecting tube under and the ejection of compact mouth still is close to connecting tube's last mouth of pipe, storage disc horizontal fixation in on the installation support body and it still is located the ejection of compact mouth under.
The technical scheme is further improved and optimized.
The conveying mechanism is positioned below the impurity filtering mechanism and comprises a conveying pipeline and a pushing screw rod, the conveying pipeline is horizontally fixed on the mounting frame body, a connecting nozzle communicated with the inner cavity of the conveying pipeline is arranged outside the conveying pipeline, the connecting nozzle is positioned right above the conveying pipeline, and the connecting nozzle is communicated with the lower pipe orifice of the vertical section of the filtering pipeline;
a connecting bracket is arranged at one pipe orifice of the conveying pipeline, the pipe orifice is also connected and communicated with a material conveying joint, and a sealing end cover is arranged at the other pipe orifice of the conveying pipeline and is coaxially provided with an extending hole;
the pushing screw rod and the conveying pipeline are coaxially arranged, one end of the pushing screw rod is movably connected with the connecting support, the other end of the pushing screw rod penetrates through an extending hole formed in the sealing end cover and is movably connected with the mounting frame body, and the pushing screw rod can axially rotate around the pushing screw rod;
and a heat-insulating heating element used for insulating the molten plastic in the conveying pipeline and keeping the molten plastic in the conveying pipeline all the time is arranged outside the conveying pipeline in a matching manner.
The technical scheme is further improved and optimized.
The driving mechanism comprises a driving motor, the driving motor is horizontally fixed on the installation frame body, the axial direction of an output shaft of the driving motor is parallel to the axial direction of the pushing screw rod, a first power transmission piece is arranged between the power output end of the driving motor and the power input end of the pushing screw rod, power connection transmission is carried out between the power output end of the driving motor and the power input end of the pushing screw rod through the first power transmission piece, a second power transmission piece is arranged between the power input end of the pushing screw rod and the power input end of the packing auger, power connection transmission is carried out between the power input end of the pushing screw rod and the packing auger through the second power transmission piece, the first power transmission piece is of a belt transmission power transmission structure.
The technical scheme is further improved and optimized.
The rotary die forming device is positioned on one side, away from the pipe orifice provided with the sealing end cover, of the pipe orifice provided with the connecting support of the conveying pipeline, and comprises a rotary die forming mechanism, an intermittent rotating mechanism and a water inlet mechanism, wherein the rotary die forming mechanism is used for receiving molten plastic and providing a die for converting the molten plastic into a particle solid structure, the intermittent rotating mechanism is used for driving the rotary die forming mechanism to periodically and intermittently rotate, and the water inlet mechanism is used for providing cooling water for the rotary die forming mechanism;
the rotary die forming mechanism comprises a fixed shell, a first die component and a second die component, the fixed shell is a cylindrical shell structure with openings at two ends and is coaxially arranged with the conveying pipeline, the fixed shell is fixed on the mounting frame body, and a discharging nozzle connected with an inner cavity of the fixed shell is arranged at the bottom of the fixed shell.
The technical scheme is further improved and optimized.
The second die component comprises a die shaft, a second die body and a fixed block, the die shaft and the fixed shell are coaxially arranged, the die shaft is positioned on one side of the fixed shell, which is far away from the conveying mechanism, a supporting bracket is arranged between the die shaft and the mounting frame body, the supporting bracket is fixed on the mounting machine body, the die shaft is mounted on the supporting bracket through a bearing, and the die shaft can axially rotate around the die shaft;
the second die body is of a cylindrical structure, the second die body is coaxially positioned in the fixed shell, the second die body is also coaxially and fixedly connected with the die shaft, an installation groove in a circular groove structure is coaxially arranged on the end surface, facing the conveying mechanism, of the second die body, a second die hole communicated with the installation groove is further formed in the outer circular surface of the second die body, and a plurality of groups of the second die holes are arranged in an array manner along the circumferential direction of the second die body;
the fixed block is positioned on one side of the second die body, which is far away from the conveying mechanism, the fixed block is of a cylindrical structure and is coaxially fixed outside the die shaft, and the fixed block is also fixedly connected with the second die body in a sealing manner;
a water inlet channel net is arranged among the die shaft, the fixed block and the second die body, a water inlet groove is formed in the end face, away from the conveying mechanism, of the die shaft, a sealing sleeve head is installed on the end face in a matched mode, a first water inlet hole and a second water inlet hole are formed in the outer circular face of the die shaft, the first water inlet hole is close to the sealing sleeve head, the first water inlet hole is connected and communicated with the water inlet groove, a plurality of groups are arranged in the circumferential direction array of the die shaft, the second water inlet hole is close to the second die body, and a plurality of groups are arranged in the circumferential direction array of the die shaft;
the end face, facing the second die body, of the fixing block is coaxially provided with a first water inlet ring groove, the fixing block is also provided with a connecting hole for connecting and communicating the first water inlet ring groove and the second water inlet hole, and the connecting hole is correspondingly provided with a plurality of groups;
the end face, facing the fixed block, of the second die body is coaxially provided with a second water inlet ring groove connected and communicated with the water inlet ring groove, the second die body is also provided with a second through hole used for connecting and communicating the second water inlet ring groove and the second die hole, and the through holes are correspondingly provided with a plurality of groups;
the water inlet hole I, the water inlet groove, the water inlet hole II, the connecting hole, the water inlet ring groove I, the water inlet ring groove II and the connecting hole form a water inlet channel net of the second die component;
the area between the outer circular surface of the second die body and the shell wall of the fixed shell is a cooling forming area of the rotary die forming mechanism;
and a second closed end cover used for sealing between the second die component and the opening of the fixed shell deviating from the conveying mechanism is arranged between the second die component and the opening of the fixed shell in a matching manner.
The technical scheme is further improved and optimized.
The first die member is positioned on one side, facing the conveying mechanism, of the second die member and comprises a first die body, the first die body is of a cylindrical structure and is coaxially positioned in the mounting groove of the second die body, a supporting protrusion of a cylindrical protrusion structure is coaxially arranged on the end surface, facing the bottom of the mounting groove, of the first die body, a supporting groove is coaxially arranged at the bottom of the mounting groove, the free end of the supporting protrusion is coaxially positioned in the supporting groove, the free end of the supporting protrusion and the supporting groove are not interfered with each other, and the outer circular surface of the first die body is in close contact with the wall of the mounting groove;
the end surface of the first die body facing the conveying mechanism is coaxially provided with a feeding groove, a feeding nozzle is arranged at the notch of the feeding groove in a matched mode, and the free end of the feeding nozzle is communicated with a material conveying joint;
the outer circular surface of the first die body is also provided with a first die hole communicated with the feeding groove, the first die hole is also communicated with a second die hole, and the first die holes are correspondingly arrayed in a plurality of groups along the circumferential direction of the first die body;
the first die component and the opening of the fixed shell facing the conveying mechanism are provided with a first closed end cover used for sealing the first die component and the fixed shell in a matched mode, and the first die body is fixedly connected with the first closed end cover.
The technical scheme is further improved and optimized.
The cooling shaping district of rotary die forming mechanism in be provided with unloading spare, unloading spare is including solid fixed ring, stripper, gu fixed ring is coaxial to be fixed in the outside of the second mould body, on the stripper was fixed in solid fixed ring's anchor ring, the big face of stripper was on a parallel with solid fixed ring's axial, the stripper still was located and is the contained angle directly over the mould hole two and between stripper and the mould hole and arranges, the stripper correspondence is provided with a plurality of groups.
The technical scheme is further improved and optimized.
The water inlet mechanism comprises a water inlet pipeline and a rotary joint, the rotary joint is of a cylindrical structure with two open ends and built-in steps, the rotary joint is coaxially and movably sleeved outside the part of the die shaft provided with the water inlet hole I, the inner cavity of the rotary joint is communicated with the water inlet hole I, the rotary joint and the die shaft are not interfered with each other, and sealing rings are arranged between the two open ends of the rotary joint and the die shaft in a matched manner;
one end of the water inlet pipeline is connected with the rotary joint, and the other end of the water inlet pipeline is connected with the cooling water supply system;
the intermittent rotating mechanism comprises a rotating motor, a sheave member and a driving plate member, the sheave member comprises a driven sheave which is coaxially fixed outside the die shaft, a plurality of groups of concave locking arcs are arrayed on the outer circumferential surface of the driven sheave along the circumferential direction of the outer circumferential surface of the driven sheave, a radial groove is arranged between every two adjacent groups of concave locking arcs, the radial groove penetrates through the axial thickness of the driven sheave, and the guiding direction of the radial groove is parallel to the diameter direction of the driven sheave at the point;
the driving plate part comprises a driving plate shaft, an active driving plate and a cylindrical pin, wherein the axial direction of the driving plate shaft is parallel to the axial direction of the die shaft, the driving plate shaft is movably arranged on the support bracket and can rotate around the axial direction of the driving plate shaft, the active driving plate is coaxially fixed outside the driving plate shaft, a convex locking arc matched with the concave locking arc is arranged on the active driving plate, and the cylindrical pin is eccentrically arranged on the active driving plate and matched with the radial groove;
the axial direction of an output shaft of the rotating motor is parallel to the axial direction of the die shaft, the rotating motor is fixed on the mounting frame body, a third power transmission piece is arranged between the power output end of the rotating motor and the dial plate shaft, power is connected and transmitted between the third power transmission piece and the dial plate shaft through the third power transmission piece, and the third power transmission piece is of a belt transmission power transmission structure.
The technical scheme is further improved and optimized.
The water separation output device comprises an output mechanism, a power connection mechanism and a water receiving pool, wherein the output mechanism is used for receiving a mixture of plastic particles and water output by the rotary die forming mechanism and separating the mixture to output force, the power connection mechanism is used for power connection between the output mechanism and the dial plate shaft, and the water receiving pool is used for receiving water separated and discharged by the output mechanism;
the output mechanism comprises a separation rotary drum, a material receiving pipeline and a material discharging pipeline, the separation rotary drum is of a cylindrical structure which is axially parallel to the axial direction of the die shaft and has openings at two ends, the separation rotary drum is movably arranged on the mounting frame body and can rotate around the axial direction of the separation rotary drum, and a plurality of groups of filtering holes are uniformly arranged on the outer circular surface of the separation rotary drum at intervals;
the material receiving pipeline is obliquely arranged, the highest end of the material receiving pipeline is fixedly connected and communicated with the discharging nozzle, the lowest end of the material receiving pipeline penetrates through one opening end of the separation rotary drum and extends into the separation rotary drum, and the other opening end of the separation rotary drum is provided with a fan in a matched mode;
a guide plate is obliquely fixed in the separation rotary drum, the highest point of the guide plate faces the material receiving pipeline, the lowest point of the guide plate faces the fan, the guide plate is arranged in an axial array of the separation rotary drum and is provided with a plurality of groups, and the groups of guide plates are distributed in a stepped manner;
the separation drum is provided with an opening end of the fan and a discharging sleeve in a bearing installation mode, the discharging pipeline is obliquely arranged, and the highest end of the discharging pipeline is communicated with the discharging sleeve;
the power connecting mechanism comprises a transmission shaft, the transmission shaft is coaxially and fixedly connected with the dial plate shaft, a power connecting piece is arranged between the transmission shaft and the separating rotary drum and forms power connection transmission between the transmission shaft and the separating rotary drum, and the power connecting piece is of a V-belt transmission structure;
the water receiving tank is fixed on the mounting frame body and is also positioned under the separation rotary drum, the bottom of the water receiving tank is connected and communicated with a water outlet pipeline, and the water outlet pipeline is connected and communicated with a cooling water supply system.
Compared with the prior art, the invention has the beneficial effects that plastic fragments are melted and particles are formed in sequence, in the melting process, the filter plate is adopted to filter impurities such as stones and the like in molten plastic, so that the quality of the formed plastic particles is ensured, and the adverse effect of the impurities such as the stones and the like on the equipment is avoided; in the particle forming process, the rotary die is used as the die body, and the molten plastic can automatically complete the processing of particle cutting forming and cooling to be solid granular output in the rotary die, so that subsequent cutting by devices such as a cutting machine is not needed, the operation is more convenient and the efficiency is greatly improved; in the process of outputting the solid granular plastic, the water separation device can carry out water filtration and surface moisture air drying treatment on the plastic granules, so that the subsequent storage of the plastic granules is facilitated.
Drawings
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 schematic view of the melt conveying apparatus of the present invention.
FIG. 4 is a schematic view of the melt conveying apparatus of the present invention.
Fig. 5 is a schematic structural view of the melting mechanism of the present invention.
Fig. 6 is a schematic diagram of the combination of the impurity filtering mechanism and the conveying mechanism of the present invention.
Fig. 7 is a schematic structural view of a foreign substance filtering mechanism of the present invention.
Fig. 8 is a cross-sectional fit of a filter tube of the present invention.
Fig. 9 is a cross-sectional view of the impurity filtering means of the present invention.
Fig. 10 is a schematic structural view of the conveying mechanism of the present invention.
Fig. 11 is a partial structural schematic view of the conveying mechanism of the present invention.
Fig. 12 is a schematic diagram of the internal components of the delivery mechanism of the present invention.
Fig. 13 is a schematic structural diagram of the driving mechanism of the present invention.
Fig. 14 is a schematic view of the rotary die forming device and the water separation output device of the present invention.
Fig. 15 is a schematic view of the rotary die forming device and the water separation output device of the present invention.
Fig. 16 is a schematic structural view of a rotary die forming apparatus according to the present invention.
Fig. 17 is a schematic structural view of a rotary die forming apparatus according to the present invention.
Fig. 18 is a schematic structural view of the rotary die forming mechanism of the present invention.
Fig. 19 is a schematic diagram showing the fitting of the internal components of the rotary die forming mechanism of the present invention.
Fig. 20 is a schematic view of the internal structure of the rotary die forming mechanism of the present invention.
FIG. 21 is a schematic view of the mating of the first and second mold members of the present invention.
FIG. 22 is a cross-sectional mating view of the first mold member of the present invention.
FIG. 23 is a schematic view of the mating of the internal components of the second mold member of the present invention.
FIG. 24 is a cross-sectional mating view of the second mold member of the present invention.
FIG. 25 is a schematic cross-sectional view of a mold shaft and a fixture block of the present invention.
FIG. 26 is a schematic cross-sectional view of a mold shaft and a second mold body of the present invention.
FIG. 27 is a schematic view of the mold shaft and water inlet mechanism of the present invention.
Fig. 28 is a schematic structural view of the intermittent rotation mechanism of the present invention.
Fig. 29 is a schematic view of the engagement of the sheave member and the dial member of the present invention.
Fig. 30 is a schematic structural view of the dial member of the present invention.
Fig. 31 is a schematic structural view of the water separation output device of the present invention.
Fig. 32 is a schematic structural view of the water receiving tank of the present invention.
FIG. 33 is a schematic view of the output mechanism of the present invention mated to a power coupling mechanism.
FIG. 34 is a schematic cross-sectional view of a separation drum of the present invention.
Detailed Description
The invention carries out melting and particle forming on plastic fragments, and has the advantages that in the melting process, the filter plate is adopted to filter impurities such as stones and the like on molten plastic, so that the quality of the formed plastic particles is ensured, the adverse effect of the impurities such as the stones and the like on the equipment is avoided, the impurities can be transported and discharged in real time by arranging the auger, the accumulation phenomenon of the impurities which can influence the transportation of the molten plastic cannot occur, meanwhile, the avoidance hole arranged on the spiral surface of the auger ensures that the auger does not influence the transportation process of the molten plastic, and the arrangement of the heat-insulating heating element can ensure that the molten plastic is always kept in a molten state in the transportation process; in the particle forming process, the rotary die is used as the die body, and the molten plastic can automatically complete the processing of particle cutting forming and cooling to be solid granular output in the rotary die, so that subsequent cutting by devices such as a cutting machine is not needed, the operation is more convenient and the efficiency is greatly improved; in the process of outputting the solid granular plastic, the water separation device can carry out water filtration and surface moisture air drying treatment on the plastic granules, so that the subsequent storage of the plastic granules is facilitated.
The polystyrene foam plastic particle forming machine comprises an installation frame body horizontally placed on the ground, wherein a
When the device is used, a worker transports and pours the chopped plastic fragments into the melting and conveying
The melting and conveying
The
The
Set up in the
The outside of connecting
In the process that the plastic fragments are heated and melted in the
molten plastic can fall downwards through the avoiding holes arranged on the spiral surface of the
The conveying
A connecting bracket is arranged at one pipe orifice of the conveying
The pushing
Preferably, the exterior of the conveying
The molten plastic drops into the conveying
The
The driving
The rotary die forming
The rotary die forming
The second mold component comprises a
The
The fixed
The
The end face of the fixing
The end surface of the
The first
The area between the outer circular surface of the
And a second
The first die member is located on one side, facing the conveying
The end surface of the
The outer circular surface of the
A first
The rotary die forming mechanism 210 receives the molten plastic and performs a particle forming process on the molten plastic, which is specifically represented as follows: the molten plastic flows to the first mold hole 2162 through the feeding nozzle 217 and the feeding groove 2161, and then flows to the second mold hole 2132, in the process, water flows into the second mold hole 2132 through the water inlet mechanism 230 and the water inlet channel network of the second mold member, the molten plastic is gradually converted into a soft solid state while approaching the second mold hole 2132, when the size of the soft solid plastic entering the second mold hole 2132 meets the requirement, the intermittent rotation mechanism 220 drives the second mold member to rotate, because the first mold member is stationary, the second mold member rotates to break the soft solid plastic and cut the soft solid plastic into granules, because the rotation of the second mold member is periodic intermittent rotation, the soft solid plastic granules are gradually and orderly accumulated in the second mold hole 2132 and finally pushed into the cooling molding area, in the process that the soft solid plastic particles are pushed into the cooling forming area, water flows into the cooling forming area through the water inlet mechanism 230, the water inlet channel net of the second mold component and the second mold hole 2132 and is finally discharged through the discharge nozzle 2113, and the soft solid plastic particles are cooled in the second mold hole 2132 and the cooling forming area by the water to form solid granular heels which are discharged through the discharge nozzle 2113 together with the water.
In the first starting process of the plastic particle forming machine, when molten plastic is conveyed into the cooling forming area through the conveying
More specifically, when the soft solid plastic particles are cooled by water in the second mold hole 2132, and the soft solid plastic particles are just entering the second mold hole 2132, a bonding phenomenon may be formed between the soft solid plastic particles and another adjacent group of soft solid plastic particles, in order to solve the problem, a discharging member 215 is arranged in a cooling forming area of the rotary mold forming mechanism 210, the discharging member 215 includes a fixing ring 2151 and a discharging plate 2152, the fixing ring 2151 is coaxially fixed outside the second mold body 213, the discharging plate 2152 is fixed on an annular surface of the fixing ring 2151, a large surface of the discharging plate 2152 is parallel to an axial direction of the fixing ring 2151, the discharging plate 2152 is also located right above the second mold hole 2132, an included angle is formed between the discharging plate 2152 and the mold hole 2132, and a plurality of groups of discharging plates 2152 are correspondingly arranged; during the process of conveying the plastic granules in the second mold hole 2132 into the cooling and molding area, the plastic granules will first contact with the inclined surface of the discharging plate 2152, and then, while the plastic granules continue to be conveyed into the cooling and molding area, a pressing force will be formed between the plastic granules and the discharging plate 2152, and the pressing force will drive the plastic granules to slide along the inclined surface of the discharging plate 2152, so that the adhesion between the plastic granules and another adjacent group of plastic granules is broken.
The
One end of the
The water in the cooling water supply system flows into the water inlet passage network of the second mold member through the
The
The dial piece comprises a
The axial direction of the output shaft of the
The
The water
The
The
The inside slope of
The
The
The
Preferably, the bottom of the
The mixture of the solid plastic particles and water flows into the separation drum 311 through the material receiving pipeline 312, the water flows downwards into the water receiving tank 330 through the filtering holes, the solid plastic particles are left in the separation drum 311, meanwhile, the power connecting mechanism 320 receives power generated by rotation of the dial plate shaft 225 and transmits the power to the separation drum 311 through the power connecting piece 322 so as to enable the separation drum 311 to rotate around the axial direction of the separation drum, and in the rotating process, the guide plate 3111 guides the solid plastic particles to the connection position of the discharge sleeve and the discharge pipeline 313 and guides the solid plastic particles to be output through the discharge pipeline 313; in the above process, the fan 314 operates, and the wind power of the fan 314 is not enough to prevent the guide plate 3111 from guiding the plastic particles to be conveyed to the discharge pipe 313, the plastic particles are finally concentrated to the connection position of the discharge sleeve and the discharge pipe 313 and are output outwards through the discharge pipe 313 under the guiding action of the guide plate 3111 and the wind power of the fan 314, and the separation of the fan 314 also performs surface moisture air drying treatment on the solid plastic particles.
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