CN111571979A

CN111571979A - Environment-friendly plastic hose's preparation equipment

Info

Publication number: CN111571979A
Application number: CN202010436832.3A
Authority: CN
Inventors: 秦金铭
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-21
Filing date: 2020-05-21
Publication date: 2020-08-25

Abstract

The invention discloses a manufacturing device of an environment-friendly plastic hose, wherein a rotating motor is arranged in the middle of the bottom end of a shaping box, a driving gear is fixedly sleeved outside an output shaft of the rotating motor, one end of the driving gear is positioned in the shaping box and meshed with a driven gear ring, the top end and the bottom end in the driven gear ring are both provided with a clamping groove, a clamping column is embedded in the clamping groove, the bottom end of the clamping column is positioned in the clamping groove and welded with a connecting spring, the clamping column is provided with a driving arc plate through a screw, one end of the connecting spring is welded at one end of the driving arc plate, and one end of the driving arc, meanwhile, the rotating motor is matched with the shaping cylinder, so that the pipeline is always attached to the inside of the shaping cylinder, the roundness of the shaping cylinder can be changed, thereby can guarantee the shape of pipeline, avoid behind the extrusion molding pipeline deformation, cause the problem that the pipeline can not use after production to appear.

Description

Environment-friendly plastic hose's preparation equipment

Technical Field

The invention relates to the technical field of plastic hose production, in particular to a manufacturing device of an environment-friendly plastic hose.

Background

The plastic hose is generally made of synthetic resin, i.e., polyester, as a raw material, and after a stabilizer, a lubricant and a plasticizer are added, the plastic hose is extruded in a hose making machine, and is mainly used as a water supply system pipe, a drainage, exhaust and pollution discharge sanitary pipe, an underground drainage pipe system, a rain water pipe and a threading pipe for electric wire installation and assembly sleeves of building buildings.

When making flexible plastic tubing now, extrude the hose through the extruding machine, but extrude the back, because the difference is great with inside difference in temperature in the external world, lead to flexible plastic tubing to warp easily to the pipeline that leads to producing does not conform to the production requirement, and the disability rate is higher, improves the cost of mill.

Disclosure of Invention

The invention provides a manufacturing device of an environment-friendly plastic hose, which can effectively solve the problems that the hose is extruded by an extruding machine when the plastic hose is manufactured in the prior art, but the plastic hose is easy to deform due to larger difference between the external temperature and the internal temperature after the plastic hose is extruded, so that the produced pipeline does not meet the production requirement, the rejection rate is higher, and the cost of a factory is increased.

In order to achieve the purpose, the invention provides the following technical scheme: the manufacturing equipment of the environment-friendly plastic hose comprises a pipeline plastic extruding machine, wherein one side of the pipeline plastic extruding machine is connected with a shaping box, one side of the shaping box is connected with a quick cooling box, one side of the quick cooling box is connected with a conveying box, one side of the conveying box is connected with a grinding box, one side of the grinding box is connected with a cutting box, and one side of the cutting box is connected with a collecting frame;

the rapid shaping lubricating assembly comprises a rotating motor, a driving gear, a driven gear ring, a clamping groove, a clamping column, a connecting spring, a driving arc plate, a driving groove, a driving rectangular plate, a shaping cylinder, a rubber cylinder, a rotating limiting plate, a rotating limiting groove, a rotating limiting ring, a rotating threaded cylinder, a moving screw, a rotating connecting plate, a connecting column, a containing groove, an annular lubricating cylinder, a grease leakage hole, a rubber plate, a placing cylinder, a moving push rod, a pushing connecting plate, a compression electric push rod, a lubricating collecting box, a shaping limiting plate and a push plate;

the shaping box comprises a shaping barrel, a shaping box body, a rotating motor, a driving gear, a driven gear ring, a clamping groove, a clamping column, a connecting spring, a driving rectangular plate, a rubber barrel and a rubber barrel, wherein the rotating motor is installed in the middle of the bottom end of the shaping box body;

the shaping box is characterized in that two ends of one side of the shaping box are respectively provided with a rotating limiting plate through screws, the middle part of each rotating limiting plate is provided with a rotating limiting groove, a rotating limiting ring is movably arranged in each rotating limiting groove, a rotating threaded cylinder is arranged in each rotating limiting ring through screws, the top end and the bottom end of each rotating threaded cylinder are respectively connected with a moving screw through threads, one end of each moving screw is welded at one end of a rotating connecting plate, a connecting column is welded at the position of one end, away from each moving screw, of each rotating connecting plate, one end of each connecting column is provided with a shaping limiting plate through screws, two adjacent shaping limiting plates are respectively contacted with the top end and the bottom end;

the plastic case is close to pipeline extruding machine one end position department fixed mounting and has an annular lubrication section of thick bamboo, the annular lubrication section of thick bamboo bottom has evenly been seted up and has been leaked the fat hole, it has the rubber slab to leak fat hole one end through spring hinged joint, the welding is run through on annular lubrication section of thick bamboo top has placed a section of thick bamboo, it installs the push pedal to place the inside embedding of a section of thick bamboo, the push pedal top surface has the removal push rod through mounting screw, it has the promotion connecting plate to remove the push rod top surface through mounting screw, promotion connecting plate one side bottom fixed mounting has compression electric putter, compression electric putter fixed mounting is in plastic case top surface, plastic case one end is in annular lubrication section of thick.

Preferably, the shaping box is internally provided with a rotating groove corresponding to the driven gear ring, the bottom end of the shaping box is arranged outside the driving gear and is provided with a protection box, the inner diameter of the accommodating groove is equal to the outer diameter of the shaping limiting plate, the width of the driving groove is equal to the length of the driving rectangular plate, the diameter of the clamping column is equal to the inner diameter of the clamping groove, and the direction of the moving screw rod at the top end and the bottom end of the rotating threaded cylinder is opposite.

Preferably, a rapid cooling water-cooling circulation assembly is arranged in the rapid cooling box, and comprises a water tank cover, a water pump, a connecting water pipe, a water outlet pipe, a spray head, a heat dissipation fan, a connecting air pipe, a heat conducting cylinder, a water baffle, a water flowing hole, a water stop plate, a water dripping hole and an air outlet hole;

a water tank cover is hinged to one side of the top end of the rapid cooling tank, a water pump is mounted to one side of the bottom end of the rapid cooling tank, one end of the water pump is connected with a connecting water pipe, one end of the connecting water pipe is uniformly provided with a water outlet pipe in a penetrating mode through threads, and one end of the water outlet pipe is connected with a spray head through threads;

the utility model discloses a quick cooling box, including plastic case, connecting tuber pipe, breakwater hole, breakwater one end, the connecting tuber pipe is in plastic case outside position department fixedly connected with connecting tuber pipe, the fixed cover in the connecting tuber pipe outside has connect a heat conduction section of thick bamboo, connecting tuber pipe one end is in quick cooling box inside position department and has evenly seted up the exhaust vent, the welding of the inside one end of quick cooling box has the breakwater, the drain hole has evenly been seted up to the breakwater bottom, the inside one end of quick cooling box is kept away from breakwater one end position department and has been welded.

Preferably, the water tank cover is provided with a corresponding hole corresponding to the water outlet pipe, a water pumping cavity is formed between the water stop plate and the bottom end of the rapid cooling tank, a heat dissipation cavity is formed between the water stop plate and the water baffle plate, and a cooling cavity is formed between the water baffle plate and the rapid cooling tank.

Preferably, the top surface and the four corners of the bottom surface of the conveying box are provided with driving electric push rods, the four driving electric push rods are arranged at the four corners of one end of the supporting frame respectively, and the supporting frame is internally provided with a conveyor.

Preferably, an environment-friendly polishing assembly is arranged in the polishing box and comprises an arc mounting plate, abrasive paper, a moving column, a limiting U-shaped plate, a compression spring, a moving block, a moving screw rod, a moving motor, a moving groove, a sliding block, a dust collecting box, a collecting fan, a connecting collecting pipe and a dust inlet pipe;

circular arc mounting plates are respectively arranged at two ends inside the environment-friendly polishing assembly, sand paper is bonded inside the circular arc mounting plates, moving columns are respectively mounted at one end of the middle part of each circular arc mounting plate through screws, the outer sides of the two moving columns are respectively movably sleeved at the top end and the inside of the bottom end of a limiting U-shaped plate, compression springs are welded at the top end and the bottom end of each limiting U-shaped plate, one end of each compression spring is in contact with the outer side of each circular arc mounting plate, a moving block is movably sleeved at the outer side of each moving column at the top end inside the polishing box 5, the middle part of each moving block is connected with a moving lead screw;

the limiting U-shaped plate is characterized in that a sliding block is mounted in the middle of one end of the limiting U-shaped plate through a screw, a moving groove is formed in the position, corresponding to the sliding block, of the grinding box, a dust collecting box is placed on the bottom surface of the grinding box, a collecting fan is installed on the top end of the dust collecting box in a penetrating mode, a connecting collecting pipe is welded to the outer side of the collecting fan and the top end of the dust collecting box is welded to the middle of the bottom.

Preferably, the dust inlet pipe is installed at one end of the limiting U-shaped plate through a screw, inlet holes are formed in two ends of the dust inlet pipe and are located at two ends of the arc installation plate, the sliding block and the longitudinal section of the moving groove are both T-shaped, and the inner diameter of the moving groove is equal to the outer diameter of the sliding block.

Preferably, a cutting and collecting assembly is arranged in the cutting box and comprises a grinding motor, a driving belt pulley, a driven belt pulley, a belt, a mounting hole, a mounting shell, a cutter, a rotating cylinder, a movable electric push rod, a mounting rod, an air inlet collecting pipe, a supporting plate, an adjusting threaded cylinder, an adjusting screw rod, an inclined block, a roller groove and a roller;

the cutting box is characterized in that a polishing motor is installed at one end of the outer side of the cutting box, a driving belt pulley is fixedly sleeved on the outer side of an output shaft of the polishing motor, a driven belt pulley is placed inside the cutting box on one side of the driving belt pulley, the driven belt pulley is connected with the driving belt pulley through a belt, a mounting hole is formed in the cutting box corresponding to the driving belt pulley, a mounting shell is installed outside the driven belt pulley and the driving belt pulley inside the mounting hole through screws, a rotating cylinder is installed at one end of the driven belt pulley through a screw rod, a movable electric push rod is fixedly installed at the top end of the rotating cylinder, a mounting rod is fixedly installed in the rotating cylinder at the bottom end of the movable electric push rod;

the cutting box is characterized in that a supporting plate is placed on one side of the cutting box, an adjusting thread cylinder is movably mounted at the top end of the supporting plate, an adjusting screw rod is mounted inside the adjusting thread cylinder through threads, an inclined block is mounted on the top surface of the adjusting screw rod through a screw, a roller groove is formed in the top surface of the inclined block, and rollers are uniformly mounted inside the roller groove.

Preferably, the supporting plate is arranged between the cutting box and the collecting frame, the driven belt pulley and the driving belt pulley are movably mounted on the inner wall of the mounting shell, and the top end of the air inlet collecting pipe is mounted at the bottom end of the rotating cylinder.

Preferably, the input that rotates motor, water pump, heat dissipation fan, removal motor, grinding motor, compression electric putter and removal electric putter all is connected with external power supply output electric property, the support frame is all installed to pipeline extruding machine, plastic case, quick cooling tank, delivery box, grinding box, cutting box and collection frame bottom, and the support frame bottom surface is in same horizontal plane with the backup pad bottom surface.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the quick shaping lubricating component is arranged, the quick shaping lubricating component is used by matching the arc plate, the threaded cylinder, the driving rectangular plate and the shaping limiting plate, so that workers can conveniently and quickly replace shaping cylinders with different inner diameters, the efficiency of mounting and dismounting the shaping cylinders is improved, the phenomenon that the shaping cylinders shake in the shaping process to influence the shaping effect of a pipeline is avoided, meanwhile, the pipeline is always attached to the inner part of the shaping cylinder by matching the rotating motor and the shaping cylinders, the roundness of the shaping cylinders can be changed, the shape of the pipeline can be ensured, the problem that the pipeline cannot be used after production due to the deformation of the pipeline after plastic extrusion is avoided, meanwhile, in the process, a large amount of external cold air is reduced to be in contact with the pipeline, the slow cooling of the pipeline is ensured, the pipeline is not easy to deform in the shaping cylinders, and the roundness of the pipeline can be ensured by correcting the shaping, the pipe meets the requirements of factory production, the rejection rate of the pipe is reduced, the cost of a factory is reduced, and meanwhile, the number of times of frequent inspection by workers is reduced in the extrusion molding process.

2. Through compression electric putter, leak the cooperation of fat hole and rubber slab and use, make things convenient for the pipeline to get into a plastic section of thick bamboo, it dies to avoid the pipeline card in a plastic section of thick bamboo, influence the extrusion of pipeline, simultaneously in the plastic, can reduce the frictional force between pipeline and the plastic section of thick bamboo, make things convenient for the rotation of a plastic section of thick bamboo, furthermore, can reduce the heat that produces between a plastic section of thick bamboo and the pipeline, avoid the cooling of heat influence pipeline that both produced, the problem that leads to pipeline production's efficiency is slower appears, when not extruding lubricating grease, the rubber slab will leak the fat hole and seal this moment, thereby can be timely seal and leak the fat hole, prevent when not using lubricating grease, lubricating grease spills from leaking in leaking the fat hole.

3. The rapid cooling water-cooling circulation assembly is arranged, and is used in cooperation with a water pump, a water baffle, a water stop plate and a heat dissipation fan, so that the pipeline is rapidly cooled, the forming of the pipeline is accelerated, the pipeline production time is saved, the pipeline production efficiency is improved, the water heat dissipation speed is accelerated, water enters a water pumping cavity after flowing back and dissipating heat to become cold water, then the cold water is sprayed out by a spray head to dissipate heat of the pipeline, the heat dissipation efficiency is improved, the problem that in real life, after the water is dissipated for a long time, the water still has higher temperature after entering a water tank, the effect of cooling the pipeline is poor is solved, the water for rapidly cooling the pipeline can be rapidly cooled, the pipeline can be rapidly cooled continuously, the cooling effect is improved, meanwhile, the recycling after hot water is converted into cold water is realized, waiting is not needed, the energy utilization rate is improved, and workers do not need to, new cold water needs to be added or the temperature of hot water needs to be lowered for a long time, so that the cooling efficiency is improved and the working efficiency during pipeline production is improved.

4. Be provided with the environmental protection subassembly of polishing, through abrasive paper, moving motor and compression spring's cooperation is used, conveniently get rid of the pipeline burr, need not the staff after production, manual get rid of the burr, save the time of deburring, reduce staff's intensity of labour, need not to carry the pipeline once more when polishing the pipeline after pipeline production finishes, the problem that causes the pipeline damage appears, use through the cooperation of connecting the collecting pipe with the collection fan, the dust that produces when preventing to polish flies out, it has more dust to cause the mill inside, cause the influence to environment and staff on every side, avoid a large amount of dusts to fall on the pipeline simultaneously, influence the pleasing to the eye of pipeline, thereby the sale of pipeline has been influenced.

5. Be provided with the cutting and collect the subassembly, through the motor of polishing, remove electric putter, the cooperation of a rotating cylinder and cutter is used, can be to the annular cutting of pipeline, avoid directly cutting pipeline department, it receives great pressure to lead to pipeline department, lead to the pipeline to warp, influence the quality of production pipeline, thereby influence the use of pipeline, simultaneously can be quick cut the pipeline, improve the efficiency of cutting pipeline cutting, simultaneously avoid when the pipeline cutting, influence the removal of pipeline, lead to the problem that the pipeline becomes curved after the extrusion molding to appear, cooperation through sloping block and adjusting screw is used, thereby make things convenient for staff to collect the pipeline, need not after the cutting, need staff's manual removal pipeline, the problem that causes the staff's damage easily appears.

In conclusion, by using the rapid shaping lubricating assembly, the rapid cooling water-cooling circulating assembly, the environment-friendly polishing assembly, the cutting collecting assembly and the driving electric push rod in a matching manner, pipelines with different diameters can be machined and formed, the produced pipelines are prevented from being deformed, the quality of the produced pipelines is improved, the application range of the device is improved, the rejection rate of the produced pipelines can be reduced, the attractiveness of the pipelines is improved, and the pipelines can be produced rapidly and efficiently;

through environmental protection grinding assembly and cutting collection subassembly, collect the dust and the piece that produce, make whole production process not have dust and piece effluvium, guarantee the cleanness in pipeline production workshop, can provide good production environment for the workman, collect the subassembly through rapid cooling water-cooling circulation subassembly and cutting, can make the piece after water and the cutting obtain quick collection and cyclic utilization and recycle, improve the utilization ratio of the energy, reduce the consumption of the energy, thereby reduce the purpose of mill cost, through above to the dust, the piece, water carries out quick collection and retrieval and utilization, can guarantee that the integrated device does not produce the pollution when the operation, guarantee simultaneously that the device application process possesses higher feature of environmental protection simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the rotary electric machine mounting structure of the present invention;

FIG. 3 is a schematic view of the lubricating collection tank mounting structure of the present invention;

FIG. 4 is a schematic view of a drive gear mounting arrangement of the present invention;

FIG. 5 is a schematic view of a tank lid mounting structure of the present invention;

FIG. 6 is a schematic view of a heat conducting cartridge mounting structure of the present invention;

FIG. 7 is a schematic view of the support frame structure of the present invention;

FIG. 8 is a schematic view of the mobile motor mounting structure of the present invention;

FIG. 9 is a schematic view of the installation structure of the limiting U-shaped plate of the invention;

FIG. 10 is a schematic view of the belt installation structure of the present invention;

FIG. 11 is a schematic view of the mounting housing mounting arrangement of the present invention;

FIG. 12 is a schematic view of the mounting structure of the support plate of the present invention;

reference numbers in the figures: 1. a pipeline plastic extruding machine; 2. shaping box; 3. a rapid cooling box; 4. a delivery box; 5. grinding a box; 6. cutting the box; 7. a collection frame;

9. rapidly shaping the lubricating component; 901. rotating the motor; 902. a driving gear; 903. a driven gear ring; 904. a card slot; 905. clamping the column; 906. a connecting spring; 907. driving the arc plate; 908. a driving groove; 909. driving the rectangular plate; 910. a shaping cylinder; 911. a rubber cylinder; 912. rotating the limiting plate; 913. rotating the limiting groove; 914. rotating the limiting ring; 915. rotating the threaded cylinder; 916. moving the screw; 917. rotating the connecting plate; 918. connecting columns; 919. a receiving groove; 920. an annular lubrication cylinder; 921. a grease leakage hole; 922. a rubber plate; 923. placing the cylinder; 924. moving the push rod; 925. pushing the connecting plate; 926. compressing the electric push rod; 927. a lubrication collection box; 928. shaping limit plates; 929. pushing the plate;

10. a rapid cooling water-cooling circulation component; 1001. a water tank cover; 1002. a water pump; 1003. connecting a water pipe; 1004. a water outlet pipe; 1005. a spray head; 1006. a heat dissipation fan; 1007. connecting an air pipe; 1008. a heat conducting tube; 1009. a water baffle; 1010. a water flowing hole; 1011. a water-stop sheet; 1012. a water dripping hole; 1013. an air outlet;

11. a conveyor; 12. driving the electric push rod; 13. a support frame;

14. an environment-friendly polishing assembly; 1401. an arc mounting plate; 1402. sand paper; 1403. moving the column; 1404. a limiting U-shaped plate; 1405. a compression spring; 1406. a moving block; 1407. moving the screw rod; 1408. a moving motor; 1409. a moving groove; 1410. a slider; 1411. a dust collection box; 1412. a collection fan; 1413. connecting a collecting pipe; 1414. a dust inlet pipe;

15. cutting and collecting components; 1501. polishing the motor; 1502. a drive pulley; 1503. a driven pulley; 1504. a belt; 1505. mounting holes; 1506. mounting a shell; 1507. a cutter; 1508. a rotating cylinder; 1509. moving the electric push rod; 1510. mounting a rod; 1511. an air inlet collecting pipe; 1512. a support plate; 1513. adjusting the threaded cylinder; 1514. adjusting the screw rod; 1515. an inclined block; 1516. a roller groove; 1517. and (3) a roller.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-12, the present invention provides a technical solution, a manufacturing apparatus for an environment-friendly plastic hose, comprising a pipe extruder 1, wherein one side of the pipe extruder 1 is connected with a shaping box 2, one side of the shaping box 2 is connected with a rapid cooling box 3, one side of the rapid cooling box 3 is connected with a conveying box 4, one side of the conveying box 4 is connected with a polishing box 5, one side of the polishing box 5 is connected with a cutting box 6, and one side of the cutting box 6 is connected with a collecting frame 7;

the quick shaping lubrication assembly 9 is arranged in the shaping box 2, and the quick shaping lubrication assembly 9 comprises a rotating motor 901, a driving gear 902, a driven gear ring 903, a clamping groove 904, a clamping column 905, a connecting spring 906, a driving arc plate 907, a driving groove 908, a driving rectangular plate 909, a shaping cylinder 910, a rubber cylinder 911, a rotating limiting plate 912, a rotating limiting groove 913, a rotating limiting ring 914, a rotating threaded cylinder 915, a moving screw 916, a rotating connecting plate 917, a connecting column 918, an accommodating groove 919, an annular lubrication cylinder 920, a grease leakage hole 921, a rubber plate 922, a placing cylinder 923, a moving push rod 924, a pushing connecting plate 925, a compression electric push rod 926, a lubrication collecting box 927, a shaping limiting plate 928 and a push plate 929;

a rotating motor 901 is installed in the middle of the bottom end of the shaping box 2, a driving gear 902 is fixedly sleeved on the outer side of an output shaft of the rotating motor 901, one end of the driving gear 902 is positioned in the shaping box 2 and is meshed with a driven gear ring 903, clamping grooves 904 are formed in the top end and the bottom end of the interior of the driven gear ring 903, clamping columns 905 are embedded in the clamping grooves 904 and installed at the bottom end of the clamping columns 905, connecting springs 906 are welded in the clamping grooves 904, driving arc plates 907 are installed on the clamping columns 905 through screws, one end of each connecting spring 906 is welded at one end of each driving arc plate 907, a driving groove 908 is welded at one end of each driving arc plate 907, driving rectangular plates 909 are embedded in the driving grooves 908 and installed, two driving rectangular plates 909 are;

the two ends of one side of the shaping box 2 are respectively provided with a rotating limiting plate 912 through screws, the middle part of the rotating limiting plate 912 is provided with a rotating limiting groove 913, the rotating limiting groove 913 is movably provided with a rotating limiting ring 914 inside, the rotating limiting ring 914 is internally provided with a rotating threaded cylinder 915 through screws, the top end and the bottom end of the rotating threaded cylinder 915 are respectively connected with a moving screw 916 through threads, one end of the moving screw 916 is welded at one end of a rotating connecting plate 917, the position of the rotating connecting plate 917, which is far away from the moving screw 916, is welded with a connecting column 918, one end of the connecting column 918 is provided with a shaping limiting plate 928 through screws, two adjacent shaping limiting plates 928 are respectively contacted with the top end and the bottom;

an annular lubricating cylinder 920 is fixedly installed at the position, close to one end of a pipeline plastic extruding machine 1, of a shaping box 2, a grease leakage hole 921 is evenly formed in the bottom end of the annular lubricating cylinder 920, a rubber plate 922 is installed at one end of the grease leakage hole 921 through a spring hinge, a placing cylinder 923 is welded at the top end of the annular lubricating cylinder 920 in a penetrating mode, a push plate 929 is installed inside the placing cylinder 923 in an embedded mode, a movable push rod 924 is installed on the top surface of the push plate 929 through screws, a pushing connecting plate 925 is installed on the top surface of the movable push rod 924 through screws, a compression electric push rod 926 is fixedly installed at the bottom end of one side of the pushing connecting plate 925, the compression electric push rod is fixedly installed on the top surface of the shaping box 2, a lubricating and collecting box 927 is installed at the position, corresponding to a driven gear ring 903, the internal diameter of accomodating groove 919 equals with the external diameter of plastic limiting plate 928, the width that drives groove 908 equals with the length that drives rectangular plate 909, the diameter of card post 905 equals with draw-in groove 904 internal diameter, the opposite direction of the removal screw 916 of rotation screw thread section of thick bamboo 915 top and bottom, convenient driven ring gear 903 rotates in plastic case 2, protect driving gear 902, prevent that external hard goods from touching driving gear 902, cause the damage to driving gear 902, conveniently put into plastic limiting plate 928 in accomodating groove 919, thereby conveniently to great pipeline plastic, prevent to drive rectangular plate 909 and rock in driving groove 908, and conveniently drive plastic section of thick bamboo 910 and rotate, make things convenient for the staff to remove two plastic limiting plate 928 simultaneously.

The rapid cooling water-cooling circulation component 10 is arranged in the rapid cooling box 3, and the rapid cooling water-cooling circulation component 10 comprises a water tank cover 1001, a water pump 1002, a connecting water pipe 1003, a water outlet pipe 1004, a spray head 1005, a heat dissipation fan 1006, a connecting air pipe 1007, a heat conduction cylinder 1008, a water baffle 1009, a water flowing hole 1010, a water stop plate 1011, a water flowing hole 1012 and an air outlet 1013;

a water tank cover 1001 is hinged to one side of the top end of the rapid cooling tank 3, a water pump 1002 is mounted to one side of the bottom end of the rapid cooling tank 3, one end of the water pump 1002 is connected with a connecting water pipe 1003, one end of the connecting water pipe 1003 is uniformly provided with a water outlet pipe 1004 in a penetrating mode through threads, and one end of the water outlet pipe 1004 is connected with a spray head 1005 through threads;

one end of the shaping box 2 is provided with a connecting air pipe 1007 in a penetrating way, the connecting air pipe 1007 is fixedly connected with the connecting air pipe 1007 at the position outside the shaping box 2, the outer side of the connecting air pipe 1007 is fixedly sleeved with a heat conducting tube 1008, one end of the connecting air pipe 1007 is uniformly provided with an air outlet 1013 at the position inside the rapid cooling box 3, one end inside the rapid cooling box 3 is welded with a water baffle 1009, the bottom end of the water baffle 1009 is uniformly provided with a water flowing hole 1010, one end inside the rapid cooling box 3, far away from the water baffle 1009, is welded with a water baffle 1011, the top end of the water baffle 1011 is uniformly provided with a water flowing hole 1012, the water tank cover 1001 is provided with a corresponding hole corresponding to the water outlet pipe 1004, a water pumping cavity is formed between the water baffle 1011 and the bottom end of the rapid cooling box 3, a heat dissipation cavity is formed between the water baffle 1011 and the, water is prevented from splashing out of the rapid cooling tank 3.

The four corners of the top surface and the bottom surface of the conveying box 4 are respectively provided with a driving electric push rod 12, the four adjacent driving electric push rods 12 are respectively arranged at the four corners of one end of a supporting frame 13, and the supporting frame 13 is internally provided with a conveyor 11.

An environment-friendly grinding assembly 14 is arranged inside the grinding box 5, and the environment-friendly grinding assembly 14 comprises an arc mounting plate 1401, abrasive paper 1402, a moving column 1403, a limiting U-shaped plate 1404, a pressing spring 1405, a moving block 1406, a moving screw 1407, a moving motor 1408, a moving groove 1409, a sliding block 1410, a dust collecting box 1411, a collecting fan 1412, a connecting collecting pipe 1413 and a dust inlet pipe 1414;

circular arc mounting plates 1401 are respectively placed at two ends inside the environment-friendly grinding assembly 14, sand paper 1402 is bonded inside the circular arc mounting plates 1401, moving columns 1403 are respectively installed at one end of the middle of each circular arc mounting plate 1401 through screws, the outer sides of the two moving columns 1403 are respectively movably sleeved inside the top end and the bottom end of each limiting U-shaped plate 1404, pressing springs 1405 are respectively welded at the top end and the bottom end of each limiting U-shaped plate 1404, one ends of the pressing springs 1405 are in contact with the outer sides of the circular arc mounting plates 1401, moving blocks 1406 are movably sleeved outside the moving columns 1403 located at the top end positions inside the grinding box 5, the middle parts of the moving blocks 1406 are connected with moving screw rods 1407;

a sliding block 1410 is arranged in the middle of one end of the limiting U-shaped plate 1404 through a screw, a moving groove 1409 is arranged in the grinding box 5 corresponding to the sliding block 1410, a dust collecting box 1411 is placed on the bottom surface in the grinding box 5, a collecting fan 1412 is arranged at the top end of the dust collecting box 1411 in a penetrating manner, a connecting collecting pipe 1413 is welded at the top end of the dust collecting box 1411 outside the collecting fan 1412, the top end of the connecting collecting pipe 1413 is welded in the middle of the bottom end of a dust inlet pipe 1414, the dust inlet pipe 1414 is arranged at one end of the limiting U-shaped plate 1404 through a screw, inlet holes are formed in both ends of the dust inlet pipe 1414 and are arranged at both ends of the circular arc mounting plate 1401, the longitudinal sections of the sliding block 1410 and the moving groove 1409 are both T-shaped, the inner diameter of the moving groove 1409 is equal to the outer diameter of the sliding block 1410, and is spacing to the sliding block 1410, prevents that the sliding block 1410 from rocking.

The cutting box 6 is internally provided with a cutting and collecting assembly 15, and the cutting and collecting assembly 15 comprises a grinding motor 1501, a driving pulley 1502, a driven pulley 1503, a belt 1504, a mounting hole 1505, a mounting shell 1506, a cutting knife 1507, a rotary cylinder 1508, a movable electric push rod 1509, a mounting rod 1510, an air inlet collecting pipe 1511, a support plate 1512, an adjusting threaded cylinder 1513, an adjusting screw 1514, a tilting block 1515, a roller groove 1516 and a roller 1517;

a grinding motor 1501 is installed at one end of the outer side of a cutting box 6, a driving pulley 1502 is fixedly sleeved on the outer side of an output shaft of the grinding motor 1501, a driven pulley 1503 is placed inside the cutting box 6 on one side of the driving pulley 1502, the driven pulley 1503 is connected with the driving pulley 1502 through a belt 1504, an installation hole 1505 is formed in the cutting box 6 corresponding to the driving pulley 1502, an installation shell 1506 is installed inside the installation hole 1505 and outside the driven pulley 1503 and the driving pulley 1502 through screws, a rotating cylinder 1508 is installed at one end of the driven pulley through a screw rod, a movable electric push rod 1509 is fixedly installed at the top end of the rotating cylinder 1508, an installation rod 1510 is fixedly installed inside the rotating cylinder 1508 at the bottom end of the movable electric push rod 1509, a cutter 1507 is installed at the bottom end of;

a supporting plate 1512 is placed at one side of the cutting box 6, an adjusting threaded barrel 1513 is movably mounted at the top end of the supporting plate 1512, an adjusting screw 1514 is mounted inside the adjusting threaded barrel 1513 through threads, an inclined block 1515 is mounted on the top surface of the adjusting screw 1514 through screws, a roller groove 1516 is formed in the top surface of the inclined block 1515, rollers 1517 are uniformly mounted inside the roller groove 1516, the supporting plate 1512 is positioned between the cutting box 6 and the collecting frame 7, a driven pulley 1503 and a driving pulley 1502 are movably mounted on the inner wall of the mounting shell 1506, the top end of an air inlet collecting pipe 1511 is mounted at the bottom end of the rotating barrel 1508 for supporting a pipe, so that the pipe falls on the collecting frame 7, the driven pulley 1503 and the driving pulley 1502 conveniently rotate, the input ends of the rotating motor 901, the water pump 1002, the heat dissipation fan 1006, the moving motor 1408, the grinding motor, the bottom ends of the pipeline plastic extruding machine 1, the shaping box 2, the quick cooling box 3, the conveying box 4, the grinding box 5, the cutting box 6 and the collecting frame 7 are all provided with supporting frames, and the bottom surfaces of the supporting frames and the bottom surfaces of the supporting plates 1512 are on the same horizontal plane.

The working principle and the using process of the invention are as follows: a worker puts the shaping cylinder 910 into the shaping box 2, the driving rectangular plate 909 is inserted into the driving groove 908, in the process, the connecting spring 906 is compressed, the clamping column 905 moves in the clamping groove 904, so that the driving arc plate 907 moves, one end of the two driving arc plates 907 is in contact with the outer side of the shaping cylinder 910, the middle of the shaping cylinder 910 is limited, the shaping cylinder 910 is preliminarily fixed, then the worker rotates the rotating threaded cylinder 915, the rotating threaded cylinder 915 rotates to drive the moving screw 916 to move on the rotating threaded cylinder 915, so that the rotating connecting plate 917 is driven to move, the connecting column 918 and the shaping limiting plate 928 are driven to move through the movement of the rotating connecting plate 917, so that the two ends of the shaping cylinder 910 are limited, the shaping cylinder 910 is fixed more stably, the shaping cylinder 910 is prevented from shaking in the shaping process, the effect of shaping a pipeline is influenced, and meanwhile, the worker can conveniently and quickly replace the shaping cylinders 910 with different inner diameters, improving the efficiency of installing and removing the reforming cylinder 910;

after the installation is finished, the pipeline extruding machine 1 is started at the moment, so that the pipeline is extruded from the pipeline extruding machine 1, the extruded pipeline enters the shaping cylinder 910, the rotating motor 901 is started to drive the driving gear 902 to rotate, the driven gear ring 903 is driven to rotate through the rotation of the driving gear 902, so that the shaping cylinder 910 is driven to rotate, the outer side of the pipeline inside the shaping cylinder 910 is extruded through the continuous rotation of the shaping cylinder 910, the center of the pipeline and the center inside the shaping cylinder 910 are always positioned on the same straight line, meanwhile, in the rotating process of the shaping cylinder 910, the pipeline is always attached to the inside of the shaping cylinder 910, the roundness of the shaping cylinder 910 can be changed, the shape of the pipeline can be ensured, the problem that the pipeline cannot be used after production due to the deformation of the pipeline after extrusion molding is avoided, and meanwhile, in the process, the pipeline is positioned inside the shaping cylinder 910, the plastic shaping device has the advantages that contact between a large amount of external cold air and a pipeline can be reduced while shaping is carried out, slow cooling of the pipeline is guaranteed, the pipeline is not prone to deformation in the shaping cylinder 910, meanwhile, the roundness of the pipeline can be guaranteed by correcting the pipeline through the shaping cylinder 910, the pipeline meets the requirements of factory production, the rejection rate of the pipeline is reduced, the cost of a factory is reduced, meanwhile, the frequency of frequent inspection by workers is reduced while extrusion molding is carried out, labor strength of the workers is reduced, the pipeline is prevented from being in contact with the rubber cylinder 911 for a long time through the rubber cylinder 911, damage to the pipeline is caused, meanwhile, the pipeline can be isolated from a large amount of external air, and the pipeline can;

before the pipeline enters the shaping cylinder 910, the compression electric push rod 926 is started to drive the push connecting plate 925, the push plate 929 and the moving push rod 924 are driven to move in the placing cylinder 923 by the movement of the push connecting plate 925, lubricating grease in the placing cylinder 923 is extruded, the lubricating grease falls from the grease leakage hole 921 and contacts the pipeline, the pipeline is lubricated before entering the shaping cylinder 910, the pipeline can conveniently enter the shaping cylinder 910, the phenomenon that the pipeline is clamped in the shaping cylinder 910 and the extrusion of the pipeline is influenced is avoided, meanwhile, after the pipeline enters the shaping cylinder 910, the lubricating grease can also enter the shaping cylinder 910 along with the pipeline, when the pipeline is shaped, the friction force between the pipeline and the shaping cylinder 910 can be reduced, the rotation of the shaping cylinder 910 is convenient, in addition, the heat generated between the shaping cylinder 910 and the pipeline can be reduced, the problem that the temperature reduction of the pipeline is influenced by the heat generated by the two, and the efficiency of pipeline production is slower is caused, when extrudeing lubricating grease, collect unnecessary lubricating grease through lubricated collecting box 927 this moment, avoid lubricated extravagant, cause the loss, when not extruding lubricating grease simultaneously, rubber plate 922 will leak fat hole 921 and seal this moment to sealing that can be timely leaks fat hole 921, prevents when not using lubricating grease, and lubricating grease leaks from leaking in leaking fat hole 921.

After the pipeline is shaped, the shaped pipeline enters the quick cooling box 3, the water pump 1002 is started, water in the quick cooling box 3 is pumped into the connecting water pipe 1003 and then enters the water outlet pipe 1004, and then is sprayed out of the spray head 1005 to quickly cool the pipeline, so that the pipeline is hardened and formed, the forming of the pipeline is accelerated, the pipeline production time is saved, and the pipeline production efficiency is improved;

when the temperature is reduced, the water cooled at the moment enters the cooling cavity, the water in the cooling cavity enters the heat dissipation cavity through the water flowing hole 1010, and then enters the water pumping cavity through the water flowing hole 1012 to prolong the flowing path of the water, so that the water can be cooled when flowing, meanwhile, the heat dissipation fan 1006 is started, the air blown out by the heat dissipation fan 1006 is blown out through the air outlet 1013, so that the outside cold air can enter the water, the water in the heat dissipation cavity is cooled again, the speed of water heat dissipation is accelerated, the water enters the water pumping cavity through backflow and heat dissipation to become cold water, and then the cold water is sprayed out by the spray head 1005 to dissipate the heat of the pipeline, so that the heat dissipation efficiency is improved, the problem that the water still has higher temperature after entering the water tank after being dissipated for a longer time in real life and the effect of pipeline cooling is poor is solved, the water for rapidly cooling the pipeline, and the pipeline can be rapidly cooled continuously and rapidly, the effect of the cooling is improved, the hot water is converted into the cold water and then recycled, waiting is not needed, the utilization rate of energy is improved, new cold water needs to be added or the waiting hot water needs to be cooled for a long time when workers radiate the pipeline, and the efficiency of the cooling and the working efficiency during pipeline production are improved.

The pipeline enters the grinding box 5 after being rapidly formed through cooling, the pipeline penetrates through the arc mounting plate 1401, the outer side of the pipeline is in contact with the surface of abrasive paper 1402, the moving motor 1408 is started, the rotation of the output shaft of the moving motor 1408 drives the moving screw 1407 to rotate, the moving block 1406 is driven to move on the moving screw 1407 through the rotation of the moving screw 1407, the moving column 1403 and the arc mounting plate 1401 are driven to move, the abrasive paper 1402 is driven to move back and forth on the surface of the pipeline through the movement of the arc mounting plate 1401, the surface of the pipeline is ground, burrs on the surface of the pipeline are removed, in the process of removing the burrs, the compression spring 1405 stretches, the arc mounting plate 1401 can be continuously pushed, the abrasive paper 1402 can better fit with the outer surface of the pipeline, the burrs on the surface of the pipeline can be better removed, in the production process, the burrs of the pipeline are removed, and a worker does, the burrs are manually removed, so that the time for removing the burrs is saved, the labor intensity of workers is reduced, and the problem of pipeline damage caused by carrying the pipeline again when the pipeline is polished after the pipeline production is finished is solved;

in the pipeline process of polishing, open collection fan 1412, the dust that produces when will polish, inhale the back by dust admission pipe 1414, the dust gets into entering dust collecting box 1411 behind the collecting pipe 1413 that gets into, collect the dust that produces when polishing, the dust departure that produces when preventing to polish causes the inside more dust that has of mill, cause the influence to environment and staff on every side, avoid a large amount of dust to drop on the pipeline simultaneously, influence the pleasing to the eye of pipeline, thereby the sale of pipeline has been influenced.

After polishing, the pipe enters a cutting box 6, so that the pipe passes through a rotating cylinder 1508, a polishing motor 1501 is started to drive a driving belt pulley 1502 to rotate, a driven belt pulley 1503 is driven to rotate through the rotation of the driving belt pulley 1502, and the rotating cylinder 1508 is driven to rotate, in the rotating process of the rotating cylinder 1508, a movable electric push rod 1509 is started, a gradual installation rod 1510 moves to drive a cutter 1507 to move, so that the cutter 1507 cuts the pipe, the cutter 1507 is driven to rotate during cutting, the pipe is cut in a ring shape, the phenomenon that one part of the pipe is directly cut to cause larger pressure, the pipe is deformed and the quality of the produced pipe is influenced, the use of the pipe is influenced, meanwhile, the pipe can be rapidly cut, the efficiency of cutting the pipe is improved, and meanwhile, the problem that the movement of the pipe is influenced and the pipe is bent after extrusion molding is avoided, in the pipeline cutting process, the collecting fan 1412 is in an open state at this time, the chips generated in the cutting process can be sucked into the dust collecting box 1411 through the air inlet collecting pipe 1511, and the chips can be recycled after being collected, so that the material for producing the pipeline is saved, and the cost of a factory is reduced;

after the cutting, the pipeline removes to on the slope piece 1515 this moment, the staff is through rotating regulation screw section of thick bamboo 1513, drive adjusting screw 1514 and remove in adjusting screw section of thick bamboo 1513, make the contact of slope piece 1515 top and pipeline surface, after the pipeline is cut off, the pipeline slides to collecting frame 7 along the slope piece 1515 incline direction this moment, cylinder 1517 rotates in cylinder groove 1516 this moment, reduce the frictional force between pipeline and slope piece 1515, make things convenient for the pipeline to slide, thereby conveniently collect the pipeline, need not after the cutting, need staff's manual removal pipeline, the problem that causes the staff's damage easily appears.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a preparation equipment of environment-friendly plastic hose, includes pipeline extruding machine (1), its characterized in that: one side of the pipeline plastic extruding machine (1) is connected with a shaping box (2), one side of the shaping box (2) is connected with a rapid cooling box (3), one side of the rapid cooling box (3) is connected with a conveying box (4), one side of the conveying box (4) is connected with a grinding box (5), one side of the grinding box (5) is connected with a cutting box (6), and one side of the cutting box (6) is connected with a collecting frame (7);

the quick shaping lubricating component (9) is arranged in the shaping box (2), the quick shaping lubricating component (9) comprises a rotating motor (901), a driving gear (902), a driven gear ring (903), a clamping groove (904), a clamping column (905), a connecting spring (906), a driving arc plate (907), a driving groove (908), a driving rectangular plate (909), a shaping cylinder (910), a rubber cylinder (911), a rotating limiting plate (912), a rotating limiting groove (913) and a rotating limiting ring (914), the lubricating device comprises a rotary threaded cylinder (915), a movable screw (916), a rotary connecting plate (917), a connecting column (918), a containing groove (919), an annular lubricating cylinder (920), a grease leakage hole (921), a rubber plate (922), a placing cylinder (923), a movable push rod (924), a pushing connecting plate (925), a compression electric push rod (926), a lubricating collecting box (927), a shaping limiting plate (928) and a push plate (929);

the middle of the bottom end of the shaping box (2) is provided with a rotating motor (901), the outer side of an output shaft of the rotating motor (901) is fixedly sleeved with a driving gear (902), one end of the driving gear (902) is positioned in the shaping box (2) and is meshed with a driven gear ring (903), the top end and the bottom end of the interior of the driven gear ring (903) are respectively provided with a clamping groove (904), a clamping column (905) is embedded in the clamping groove (904), the bottom end of the clamping column (905) is positioned in the clamping groove (904) and is welded with a connecting spring (906), the clamping column (905) is provided with a driving arc plate (907) through screws, one end of the connecting spring (906) is welded at one end of the driving arc plate (907), one end of the driving arc plate (907) is welded with a driving groove (908), a driving rectangular plate (909) is embedded in the driving groove (908), and the two driving rectangular plates (, a rubber cylinder (911) is bonded inside the shaping cylinder (910);

both ends of one side of the shaping box (2) are provided with rotating limit plates (912) through screws, a rotary limiting groove (913) is formed in the middle of the rotary limiting plate (912), a rotary limiting ring (914) is movably mounted in the rotary limiting groove (913), a rotary thread cylinder (915) is arranged in the rotary limiting ring (914) through a screw, the top end and the bottom end of the rotary threaded cylinder (915) are both connected with a movable screw (916) through threads, one end of the movable screw rod (916) is welded at one end of the rotating connecting plate (917), a connecting column (918) is welded at the position of one end of the rotating connecting plate (917) far away from the movable screw (916), one end of the connecting column (918) is provided with a shaping limit plate (928) through a screw, two adjacent shaping limit plates (928) are respectively contacted with the top end and the bottom end of the shaping cylinder (910), a containing groove (919) is formed in the position, corresponding to the shaping limiting plate (928), of the shaping box (2);

an annular lubricating cylinder (920) is fixedly arranged at the position of the shaping box (2) close to one end of the pipeline plastic extruding machine (1), the bottom end of the annular lubricating cylinder (920) is uniformly provided with grease leaking holes (921), one end of each grease leaking hole (921) is provided with a rubber plate (922) through a spring hinge, the top end of the annular lubricating cylinder (920) is penetratingly welded with a placing cylinder (923), a push plate (929) is embedded in the placing cylinder (923), the top surface of the push plate (929) is provided with a movable push rod (924) through a screw, the top surface of the movable push rod (924) is provided with a push connecting plate (925) through a screw, a compression electric push rod (926) is fixedly arranged at the bottom end of one side of the push connecting plate (925), the compression electric push rod (926) is fixedly arranged on the top surface of the shaping box (2), and one end of the shaping box (2) is positioned at the bottom end of the annular lubricating cylinder (920) and is provided with a lubricating and collecting box (927) through a screw rod.

2. The manufacturing equipment of the environment-friendly plastic hose according to claim 1, wherein a rotating groove is formed in the shaping box (2) corresponding to the driven gear ring (903), a protection box is installed at the bottom end of the shaping box (2) and outside the driving gear (902), the inner diameter of the accommodating groove (919) is equal to the outer diameter of the shaping limit plate (928), the width of the driving groove (908) is equal to the length of the driving rectangular plate (909), the diameter of the clamping column (905) is equal to the inner diameter of the clamping groove (904), and the directions of the moving screws (916) at the top end and the bottom end of the rotating threaded cylinder (915) are opposite.

3. The manufacturing equipment of the environment-friendly plastic hose according to claim 1, wherein a rapid cooling water-cooling circulation assembly (10) is installed inside the rapid cooling box (3), and the rapid cooling water-cooling circulation assembly (10) comprises a water tank cover (1001), a water pump (1002), a connecting water pipe (1003), a water outlet pipe (1004), a spray head (1005), a heat dissipation fan (1006), a connecting air pipe (1007), a heat conducting cylinder (1008), a water baffle (1009), a water flowing hole (1010), a water stop plate (1011), a water flowing hole (1012) and an air outlet hole (1013);

a water tank cover (1001) is hinged to one side of the top end of the rapid cooling tank (3), a water pump (1002) is installed on one side of the bottom end of the rapid cooling tank (3), one end of the water pump (1002) is connected with a connecting water pipe (1003), one end of the connecting water pipe (1003) is uniformly provided with a water outlet pipe (1004) in a penetrating mode through threads, and one end of the water outlet pipe (1004) is connected with a spray head (1005) through threads;

shaping case (2) one end is run through and is installed linking tuber pipe (1007), linking tuber pipe (1007) is in shaping case (2) outside position department fixedly connected with linking tuber pipe (1007), linking tuber pipe (1007) outside fixed cup joint has heat-conducting tube (1008), linking tuber pipe (1007) one end is in rapid cooling case (3) internal position department and has evenly seted up exhaust vent (1013), the welding of rapid cooling case (3) inside one end has breakwater (1009), breakwater (1010) have evenly been seted up in breakwater (1009) bottom, breakwater (1009) one end position department welding has water stop (1011) is kept away from to rapid cooling case (3) inside one end, water stop (1011) top has evenly been seted up and has been trickled water hole (1012).

4. The manufacturing equipment of the environment-friendly plastic hose according to claim 3, wherein a corresponding hole is formed in the water tank cover (1001) corresponding to the water outlet pipe (1004), a water pumping cavity is formed between the water stop plate (1011) and the bottom end of the rapid cooling tank (3), a heat dissipation cavity is formed between the water stop plate (1011) and the water baffle plate (1009), and a cooling cavity is formed between the water baffle plate (1009) and the rapid cooling tank (3).

5. The manufacturing equipment of the environment-friendly plastic hose as claimed in claim 1, wherein four corners of the top surface and the bottom surface of the conveying box (4) are respectively provided with a driving electric push rod (12), the four adjacent driving electric push rods (12) are respectively arranged at four corners of one end of a supporting frame (13), and a conveyor (11) is arranged inside the supporting frame (13).

6. The manufacturing equipment of the environment-friendly plastic hose according to claim 1, wherein an environment-friendly grinding assembly (14) is installed inside the grinding box (5), and the environment-friendly grinding assembly (14) comprises an arc mounting plate (1401), abrasive paper (1402), a moving column (1403), a limiting U-shaped plate (1404), a pressing spring (1405), a moving block (1406), a moving screw rod (1407), a moving motor (1408), a moving groove (1409), a sliding block (1410), a dust collecting box (1411), a collecting fan (1412), a connecting collecting pipe (1413) and a dust inlet pipe (1414);

circular arc mounting plates (1401) are respectively placed at two ends inside the environment-friendly grinding assembly (14), sand paper (1402) is bonded inside the circular arc mounting plates (1401), moving columns (1403) are respectively installed at one end of the middle parts of the circular arc mounting plates (1401) through screws, the outer sides of the two moving columns (1403) are respectively movably sleeved inside the top end and the bottom end of a limiting U-shaped plate (1404), pressing springs (1405) are respectively welded at the top end and the bottom end of the limiting U-shaped plate (1404), one ends of the pressing springs (1405) are in contact with the outer sides of the circular arc mounting plates (1401), moving blocks (1406) are movably sleeved outside the moving columns (1403) at the positions of the top ends inside the grinding box (5), a moving screw rod (1407) is connected to the middle part of each moving block (1406) through a thread, and one end of each moving;

slider (1410) are installed through the screw in spacing U template (1404) one end middle part, the removal groove (1409) have been seted up to the inside sliding block (1410) department that corresponds of case (5) of polishing, dust collecting box (1411) have been placed to the inside bottom surface of case (5) of polishing, dust collecting box (1411) top is run through and is installed collection fan (1412), dust collecting box (1411) top is in the outside welding of collection fan (1412) and has connecting collecting pipe (1413), connecting collecting pipe (1413) top welds in dust admission pipe (1414) bottom middle part.

7. The manufacturing equipment of the environment-friendly plastic hose as claimed in claim 6, wherein the dust inlet pipe (1414) is installed at one end of the limiting U-shaped plate (1404) through screws, the dust inlet pipe (1414) is provided with inlet holes at both ends, the inlet holes are located at both ends of the arc mounting plate (1401), the longitudinal sections of the sliding block (1410) and the moving groove (1409) are both T-shaped, and the inner diameter of the moving groove (1409) is equal to the outer diameter of the sliding block (1410).

8. The manufacturing equipment of the environment-friendly plastic hose according to claim 1, wherein a cutting collection assembly (15) is installed inside the cutting box (6), and the cutting collection assembly (15) comprises a grinding motor (1501), a driving pulley (1502), a driven pulley (1503), a belt (1504), a mounting hole (1505), a mounting shell (1506), a cutter (1507), a rotating cylinder (1508), a movable electric push rod (1509), a mounting rod (1510), an air inlet collection pipe (1511), a support plate (1512), an adjusting threaded cylinder (1513), an adjusting screw (1514), a tilting block (1515), a roller groove (1516) and a roller (1517);

the utility model discloses a cutting box, including cutting case (6), cutting case (6) outside one end install motor (1501) of polishing, motor (1501) of polishing is fixed to be cup jointed driving pulley (1502) in the output shaft outside, driving pulley (1502) one side is in cutting case (6) inside placed driven pulley (1503), driven pulley (1503) is connected through belt (1504) with driving pulley (1502), cutting case (6) are located to have seted up mounting hole (1505) corresponding driving pulley (1502), inside driven pulley (1503) of being in of mounting hole (1505) is installed installation shell (1506) through the screw with driving pulley (1502) outside through the screw, driven pulley (1503) one end is installed through the screw and is rotated a section of thick bamboo (1508), it has removal electric putter (1509) to rotate a section of thick bamboo (1508) top fixed mounting, it has installation pole (1510) to move electric putter (1509) bottom and be in rotating a section of thick bamboo, the bottom end of the mounting rod (1510) is embedded with a cutter (1507), and one end of the connecting collecting pipe (1413) is welded with an air inlet collecting pipe (1511) in a penetrating way;

backup pad (1512) have been placed to cutting case (6) one side, backup pad (1512) top movable mounting has an adjusting thread section of thick bamboo (1513), adjusting thread section of thick bamboo (1513) is inside to be installed adjusting screw (1514) through the screw thread, adjusting screw (1514) top surface has inclined block (1515) through the screw mounting, cylinder groove (1516) have been seted up to inclined block (1515) top surface, cylinder (1517) are evenly installed to cylinder groove (1516) inside.

9. The apparatus for manufacturing environment-friendly plastic hose according to claim 8, wherein the supporting plate (1512) is located between the cutting box (6) and the collecting frame (7), the driven pulley (1503) and the driving pulley (1502) are both movably mounted on the inner wall of the mounting case (1506), and the top end of the air intake collecting pipe (1511) is mounted at the bottom end of the rotary cylinder (1508).

10. The manufacturing equipment of the environment-friendly plastic hose according to claim 8, wherein the input ends of the rotating motor (901), the water pump (1002), the heat dissipation fan (1006), the moving motor (1408), the grinding motor (1501), the compression electric push rod (926) and the moving electric push rod (1509) are electrically connected with the output end of an external power supply, the bottom ends of the pipeline plastic extruder (1), the shaping box (2), the rapid cooling box (3), the conveying box (4), the grinding box (5), the cutting box (6) and the collecting frame (7) are respectively provided with a support frame, and the bottom surfaces of the support frames and the bottom surfaces of the support plates (1512) are positioned on the same horizontal plane.