CN116749441A - Injection molding equipment for processing plastic products - Google Patents

Abstract

The invention provides injection molding equipment for processing plastic products, which relates to the field of plastic molding and comprises: an injection molding apparatus; the top of injection molding equipment is equipped with the feed subassembly, and the mounting panel supports through the backup pad and installs the atress subassembly, and the atress subassembly is the slope form, and the atress subassembly is elastic rubber material, and the front end top bonding of atress subassembly is fixed with the contact. After the polypropylene plastic cup is pushed and discharged through the pushing component, the polypropylene plastic cup falls above the stress component, impact force generated during falling is buffered, meanwhile, the polypropylene plastic cup is contacted with the contact piece, so that the contact piece slows down the discharging force of the polypropylene plastic cup, the polypropylene plastic cup slowly falls down, deformation or abrasion is avoided when the polypropylene plastic cup falls down, the problem that the polypropylene plastic cup is easy to deform due to collision after the pushing is fallen down after the existing injection molding equipment for processing plastic products is formed by the polypropylene plastic cup is solved.

Description

Injection molding equipment for processing plastic products

Technical Field

The invention relates to the technical field of plastic molding, in particular to injection molding equipment for processing plastic products.

Background

When producing plastic products such as polypropylene plastic cup, injection molding equipment is usually required, and then plastic particle raw materials are melted, and then extrusion injection is carried out into a molding die, so that the polypropylene plastic cup can be rapidly injection molded.

The existing injection molding equipment for processing plastic products is easy to collide after the polypropylene plastic cup body is molded and pushed down when being used, the polypropylene plastic cup body which is not thoroughly cooled is easy to deform even if the polypropylene plastic cup body is completely cooled down, residues are easy to generate after the molding die of the injection molding equipment is used, the residues are easy to clean, the cleaning is laborious and not thorough enough, a tilting knife is required to be used for singly tilting, the residues are scattered after the residues are cleaned and fall, a feeding stop assembly is required when feeding, and after the feeding stop assembly is restarted, plastic particle raw materials are easily stacked together, so that the plastic particle raw materials cannot be discharged for the first time.

Disclosure of Invention

In view of the above, the present invention provides an injection molding apparatus for plastic product processing, so as to solve the problem that after the polypropylene plastic cup is molded, the polypropylene plastic cup is easy to collide after being pushed down and is easy to deform after being not completely cooled, and even if the polypropylene plastic cup is completely cooled, the polypropylene plastic cup is easy to wear after being dropped down.

The invention provides injection molding equipment for processing plastic products, which comprises the following components: injection molding equipment, a cleaning assembly and a charging assembly; the top end of the injection molding equipment is provided with a feeding component, the top end of the injection molding equipment is provided with a molding die, the middle position of the top end of the injection molding equipment is provided with a heating component, the bottom of the injection molding equipment is provided with a bottom groove, a mounting plate is inserted into the bottom groove in a sliding manner, the mounting plate is supported and provided with a stress component through a supporting plate, the stress component is inclined, the stress component is made of elastic rubber, a contact piece is fixedly bonded above the front end of the stress component, and the contact piece is of an arc-shaped plate structure; the cleaning components are spliced at the top end of the injection molding equipment, two sides of each cleaning component are respectively provided with a chute, two sides of each cleaning component are respectively provided with a sliding block, the inner side of each sliding block is fixedly provided with stress rods through pull pieces, cleaning rods which are uniformly arranged are fixedly arranged between the stress rods, collecting pieces are fixedly arranged at the bottoms between the stress rods, two sides of each collecting piece are of inclined structures, collecting grooves are formed in the collecting pieces, and the collecting pieces are made of flexible rubber materials; the feeding assembly is a hopper body, the bottom of the feeding assembly is communicated with the inside of the feeding assembly, a supporting rod is fixed inside the top end of the feeding assembly, a clamping assembly is fixed inside the supporting rod and is made of flexible rubber, a dredging assembly is fixed inside the clamping assembly, and the bottom end of the dredging assembly is of a conical structure.

Optionally, the bottom groove is located under the injection mold, two clamping blocks are welded on two sides of the bottom groove respectively, two sides of each clamping block are of an inclined structure, and the middle position of the inner side of each clamping block is of an arc structure; the bottom of the front end of the mounting plate is provided with a pull plate, two positioning rods are respectively fixed on two sides of the bottom of the mounting plate, and the positioning rods are clamped on the inner sides of the clamping blocks; four support plates are arranged in total, a baffle is fixed between the support plates at two sides of the rear end, the bottom of the baffle is fixedly connected with the stress assembly, two auxiliary pieces with different widths are fixed at the inner sides of the two support plates at each side, the inner ends of the auxiliary pieces are of wedge-shaped structures, and the auxiliary pieces are made of flexible rubber materials.

Optionally, the sliding blocks are inserted into the sliding grooves in a sliding manner, and two pulling pieces are fixed on the inner side of each sliding block and made of flexible rubber; a guide piece is fixed outside each sliding block, the middle position of the guide piece is of a T-shaped shaft structure, two sides of the guide piece are of L-shaped structures, a spring is sleeved outside each guide piece, a limiting plate is sleeved outside each guide piece in a sliding manner, the outer side of each limiting plate is in contact with the spring, two limiting contact blocks are fixed on the inner side of each limiting plate, and each limiting contact block is in contact with the cleaning assembly; the two stress rods are arranged in total, the top ends of the two stress rods are fixed with a bearing plate, and the top ends of the bearing plates are provided with small-sized vibration motors.

Optionally, the supporting rod is made of plastic, a supporting frame is fixed at the bottom of the feeding assembly and is fixedly connected with the injection molding equipment through a bolt, a stopping groove is arranged in the supporting frame, and the middle position of the stopping groove is communicated with the inside of the feeding assembly; the right side of the top end of the supporting frame is fixedly provided with a guide head, the guide head consists of a rectangular block and two T-shaped shaft rods, the outer part of the guide head is sleeved with two springs, a material stopping component is inserted into the material stopping groove in a sliding manner, the inner end of the material stopping component is of a wedge-shaped structure, the outer end of the material stopping component is provided with two round holes, the guide head is inserted into the round holes, and the outer side of the material stopping component is in contact with the springs; an inner groove is arranged at the position of an inner included angle of the material stopping assembly, the top end of the inner groove is communicated with the top end of the material stopping assembly, and a blocking piece is inserted into the inner groove.

The beneficial effects are that:

1. after the polypropylene plastic cup body is molded, the polypropylene plastic cup body can fall above the stress component after being pushed and discharged by the pushing component, the stress component is made of flexible rubber, so that impact force generated during falling can be buffered, and the stress component is obliquely arranged, so that the polypropylene plastic cup body can be guided to circulate and discharge, and meanwhile, the polypropylene plastic cup body is contacted with the contact piece, so that the contact piece can slow down the discharge force of the polypropylene plastic cup body, the polypropylene plastic cup body can slowly fall, deformation or abrasion during falling of the polypropylene plastic cup body can be avoided, and the yield of the polypropylene plastic cup body is improved;

2. through setting up clean pole and collecting piece, make this device when needs clean forming die, can control the slider and drive clean pole, collecting piece and small-size vibrating motor and move down together, make clean pole can atress warp, and then insert forming die's shaping inslot automatically, make collecting piece can insert forming die inside, because collecting piece is flexible rubber material, make it can atress warp voluntarily, and then laminate forming die automatically, then control small-size vibrating motor operation, then transmit vibrating force to clean pole, make clean pole can fully vibrate in forming tank's inside and clear away the residue, avoid producing the residue, simultaneously after the residue falls down, can fall into collecting piece's inside and collect the storage, improve the convenience of collecting, avoid the residue to scatter;

3. through setting up clamping component and mediation subassembly, make this device when using, when need stop the feed, can press the fender piece and move downwards, make the spring promote stop material subassembly remove, make stop material subassembly in the removal, can with the bottom contact of mediation subassembly, make the mediation subassembly can the atress slope, simultaneously promote the clamping component of rubber material and warp, and then convenient stop feed, and when need feed again, can stimulate and stop the material subassembly and outwards remove, then the pulling fender piece rises, make the inner of fender piece can be fixed with the side contact of support frame, make the bottom of feeding subassembly can conveniently open the feed, stop the material subassembly simultaneously and stop the top and move the mediation subassembly, make the clamping component can promote the mediation subassembly to reset with the help of self elasticity, make the mediation subassembly can remove the mediation in plastic granule raw materials, avoid producing and pile up, influence the smoothness of plastic granule raw materials.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of an injection molding apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic bottom view of an injection molding apparatus according to an embodiment of the present invention.

Fig. 3 is an exploded perspective view of an injection molding apparatus according to an embodiment of the present invention.

Fig. 4 is an exploded bottom view of an injection molding apparatus of an embodiment of the present invention.

Fig. 5 is a partially exploded perspective view of an injection molding apparatus according to an embodiment of the present invention.

Fig. 6 is an exploded perspective view of a cleaning assembly of an injection molding apparatus according to an embodiment of the present invention.

Fig. 7 is an exploded bottom view of the cleaning assembly of the injection molding apparatus of an embodiment of the present invention.

Fig. 8 is a partially cross-sectional exploded perspective view of a charging assembly of an injection molding apparatus according to an embodiment of the present invention.

List of reference numerals

1. An injection molding apparatus; 101. a bottom groove; 102. a clamping block; 103. a mounting plate; 104. a positioning rod; 105. a support plate; 106. an auxiliary member; 107. a force-bearing component; 108. a contact;

2. a cleaning assembly; 201. a slide block; 202. a pull member; 203. a guide; 204. a limiting plate; 205. a force-bearing rod; 206. a small-sized vibration motor; 207. a cleaning lever; 208. a collection member;

3. a charging assembly; 301. a support rod; 302. a clamping assembly; 303. a dredging assembly; 304. a support frame; 305. a guide head; 306. a stop assembly; 307. an inner tank; 308. a baffle.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Embodiment one: please refer to fig. 1 to 8:

the invention provides injection molding equipment for processing plastic products, which comprises injection molding equipment 1, a cleaning assembly 2 and a feeding assembly 3; the top end of the injection molding equipment 1 is provided with a feeding component for controlling raw material circulation and movement, the top end of the injection molding equipment 1 is provided with a molding die for controlling raw material molding, the middle position of the top end of the injection molding equipment 1 is provided with a heating component for melting plastic particles so as to facilitate injection, the bottom of the injection molding equipment 1 is provided with a bottom groove 101, the inside of the bottom groove 101 is slidably inserted with a mounting plate 103, the mounting plate 103 is supported by a supporting plate 105 and provided with a stress component 107, the stress component 107 is in an inclined shape, the stress component 107 is made of elastic rubber, the impact force of falling of a polypropylene plastic cup can be buffered by virtue of elasticity, a contact piece 108 is fixedly adhered above the front end of the stress component 107, and the contact piece 108 is in an arc-shaped plate structure so as to limit the moving speed of the polypropylene plastic cup; the cleaning components 2 are spliced at the top end of the injection molding equipment 1, two sides of each cleaning component 2 are respectively provided with a chute for guiding and displacing the sliding blocks 201 in the cleaning components, two sides of each cleaning component 2 are respectively provided with a sliding block 201, the inner side of each sliding block 201 is fixedly provided with a stress rod 205 through a pull piece 202, cleaning rods 207 which are uniformly arranged are fixed between the stress rods 205 and are used for being inserted into a molding die to remove residues, a collecting piece 208 is fixed at the bottom between the stress rods 205, two sides of each collecting piece 208 are of an inclined structure, a collecting groove is formed in each collecting piece 208 and is used for collecting the fallen residues, and each collecting piece 208 is made of flexible rubber material and can be automatically deformed when being inserted into the molding die so as to be automatically attached to the molding die; the feeding assembly 3 is a hopper body, the bottom of the feeding assembly 3 is communicated with the inside of the feeding assembly, a supporting rod 301 is fixed at the top end of the feeding assembly 3, a clamping assembly 302 is fixed in the supporting rod 301, the clamping assembly 302 is made of flexible rubber, deformation and resetting of the clamping assembly 302 can be controlled by means of elasticity, a dredging assembly 303 is fixed in the clamping assembly 302, the bottom end of the dredging assembly 303 is of a conical structure and is used for being in contact with a stopping assembly 306, and the dredging assembly 303 can be pushed to deform by the stopping assembly 306.

Referring to fig. 5, the bottom groove 101 is located under the injection mold, so that after the polypropylene plastic cup body is pushed down, the polypropylene plastic cup body can directly fall into the bottom groove 101 for circulation and collection, two clamping blocks 102 are welded on two sides of the bottom groove 101 respectively, two sides of the clamping blocks 102 are of inclined structures and are used for fixing the positioning rod 104, and the middle position of the inner side of the clamping blocks 102 is of an arc structure; the bottom of the front end of the mounting plate 103 is provided with a pull plate, two positioning rods 104 are respectively fixed on two sides of the bottom of the mounting plate 103, the positioning rods 104 are clamped on the inner sides of the clamping blocks 102 and used for clamping and fixing the mounting plate 103, so that the mounting plate 103 can be firmly fixed, and meanwhile, the fixing direction can be freely adjusted, and the discharging direction can be controlled; the backup pad 105 is equipped with four altogether, is fixed with a baffle between the backup pad 105 of rear end both sides, and the bottom and the atress subassembly 107 fixed connection of baffle are used for helping to block the polypropylene plastics cup, and the inboard of two backup pads 105 of every side is fixed with two different auxiliary members 106 of width, and auxiliary member 106 inner is wedge structure, and auxiliary member 106 is flexible rubber material, can assist in promoting the polypropylene plastics cup, and then the whereabouts strength of layer by layer buffering polypropylene plastics cup.

Referring to fig. 6 and 7, the sliding blocks 201 are slidably inserted into the sliding grooves, and are used for driving the cleaning rod 207 and the collecting piece 208 to move conveniently to adjust the use position, two pull pieces 202 are fixed on the inner side of each sliding block 201, and the pull pieces 202 are made of flexible rubber and are elastically connected with the stress rod 205, so that vibration force is not transmitted to the sliding blocks 201 when the small vibration motor 206 runs; a guide piece 203 is fixed on the outer part of each sliding block 201, the middle position of the guide piece 203 is of a T-shaped shaft structure and is used for sleeving springs, two sides of the guide piece 203 are of L-shaped structures, a spring is sleeved on the outer part of each guide piece 203, a limiting plate 204 is sleeved on the outer part of each guide piece 203 in a sliding manner, the outer side of each limiting plate 204 is contacted with the spring and can be continuously pushed to move by the spring, two limiting contact blocks are fixed on the inner side of each limiting plate 204 and are contacted with the cleaning assembly 2, and the limiting contact blocks are made of rubber and are used for being fixed with the cleaning assembly 2 in an anti-skid contact manner; the two stress rods 205 are arranged in total, the top ends of the two stress rods 205 are fixed with a bearing plate, and the top ends of the bearing plates are provided with a small vibration motor 206 which can generate vibration cleaning force.

Referring to the figure, a supporting rod 301 is made of plastic material and is used for firmly fixing a clamping assembly 302, a supporting frame 304 is fixed at the bottom of a feeding assembly 3, the supporting frame 304 is fixedly connected with injection molding equipment 1 through bolts and is used for supporting the feeding assembly 3, a material stopping groove is formed in the supporting frame 304, and the middle position of the material stopping groove is communicated with the inside of the feeding assembly 3 and is used for enabling a material stopping assembly 306 to be capable of guiding and displacing in the material stopping assembly; the right side of the top end of the supporting frame 304 is fixedly provided with a guide head 305, the guide head 305 consists of a rectangular block and two T-shaped shaft rods and is used for controlling the guide displacement of a material stopping assembly 306, two springs are sleeved outside the guide head 305, the material stopping assembly 306 is inserted into the material stopping groove in a sliding manner, the material feeding can be stopped conveniently, the inner end of the material stopping assembly 306 is of a wedge-shaped structure, the outer end of the material stopping assembly 306 is provided with two round holes, the guide head 305 is inserted into the round holes, and the outer side of the material stopping assembly 306 is in contact with the springs; an inner groove 307 is arranged at the inner included angle position of the material stopping component 306, the top end of the inner groove 307 is communicated with the top end of the material stopping component 306, and a blocking piece 308 is inserted into the inner groove 307 and used for being fixed in contact with the side edge of the supporting frame 304, so that the material stopping component 306 can be in a pulling state, and further plastic particle raw materials can be continuously discharged.

Embodiment two: when it is desired to remove the residues stained on the outside of the cleaning bar 207, the control slider 201 can be disengaged from the inside of the chute after the cleaning assembly 2 is removed, so that the cleaning bar 207 can be removed for maintenance cleaning.

Specific use and action of the embodiment: in the invention, when the device is needed to be used, the blocking piece 308 can be pressed down to move, the spring pushes the stopping component 306 to move, the stopping component 306 can move in the stopping groove, meanwhile, the stopping component 306 can be contacted with the bottom end of the dredging component 303, the dredging component 303 can deform and incline through the clamping component 302, then plastic particle raw materials are added into the inside of the feeding component 3, then the mounting plate 103 is controlled to be inserted into the bottom groove 101 to be mounted, the positioning rod 104 can be inserted into the clamping block 102 to be clamped and fixed, when the polypropylene plastic cup body is needed to be injection molded, the stopping component 306 can be pulled to move outwards, then the blocking piece 308 is lifted, the blocking piece 308 can be contacted and fixed with the side edge of the supporting frame 304, the bottom of the feeding component 3 is opened, meanwhile, the stopping component 306 stops pushing the dredging component 303, the clamping component 302 is driven to reset by the elasticity of the clamping component 303, the dredging component 303 can move and dredge the inside of plastic particle raw materials, the accumulation is avoided, the smoothness of the plastic particle raw materials is influenced, then the plastic particle raw materials enter the feeding component to be driven, and are heated and melted by the heating component, then the melted plastic particle raw materials are controlled to be injected into the forming die to enable the polypropylene plastic cup body to be rapidly injection-molded, after the polypropylene plastic cup body is cooled, the forming die can be controlled to be opened, the pushing component can control the polypropylene plastic cup body to fall down, the polypropylene plastic cup body is enabled to fall above the stress component 107, the stress component 107 is made of flexible rubber material, the impact force generated during the falling is buffered, the stress component 107 is inclined, the polypropylene plastic cup body is guided to flow and discharged, meanwhile, the polypropylene plastic cup body is in contact with the contact piece 108, so that the contact piece 108 can slow down the discharge force of the polypropylene plastic cup body, the polypropylene plastic cup body slowly falls down, when residues are generated inside the forming die after the polypropylene plastic cup body is used for multiple times, the sliding block 201 can be controlled to move downwards after the forming die is opened, the cleaning rod 207 and the collecting piece 208 enter the inside of the forming die, then the small vibration motor 206 is controlled to operate, and then the vibration force is transmitted to the cleaning rod 207, so that the cleaning rod 207 sufficiently vibrates inside the forming groove to remove the residues, the residues are prevented from being generated, meanwhile, the residues fall down and then fall into the collecting piece 208 to be collected and stored, the convenience of collection is improved, the residues are prevented from scattering, the device can be conveniently maintained, and meanwhile, the polypropylene plastic cup body can be conveniently controlled to be injection molded.

Claims (10)

1. An injection molding apparatus for use in the processing of plastic products, comprising: an injection molding device (1), a cleaning assembly (2) and a charging assembly (3); the injection molding device is characterized in that a feeding component is arranged at the top end of the injection molding device (1), a molding die is arranged at the top end of the injection molding device (1), a heating component is arranged at the middle position of the top end of the injection molding device (1), a bottom groove (101) is formed in the bottom of the injection molding device (1), a mounting plate (103) is inserted into the bottom groove (101) in a sliding mode, the mounting plate (103) is supported by a supporting plate (105) and provided with a stress component (107), the stress component (107) is inclined, the stress component (107) is made of elastic rubber, a contact piece (108) is fixedly adhered to the upper portion of the front end of the stress component (107), and the contact piece (108) is of an arc-shaped plate structure; the cleaning assembly (2) is spliced at the top end of the injection molding equipment (1), two sides of the cleaning assembly (2) are respectively provided with a chute, two sides of each cleaning assembly (2) are respectively provided with a sliding block (201), the inner side of each sliding block (201) is fixedly provided with a stress rod (205) through a pull piece (202), cleaning rods (207) which are uniformly arranged are fixedly arranged between the stress rods (205), a collecting piece (208) is fixedly arranged at the bottom between the stress rods (205), two sides of the collecting piece (208) are of an inclined structure, the inside of the collecting piece (208) is provided with a collecting groove, and the collecting piece (208) is made of flexible rubber; the feeding assembly (3) is a hopper body, the bottom of the feeding assembly (3) is communicated with the inside of the feeding assembly, a supporting rod (301) is fixed inside the top end of the feeding assembly (3), a clamping assembly (302) is fixed inside the supporting rod (301), the clamping assembly (302) is made of flexible rubber, a dredging assembly (303) is fixed inside the clamping assembly (302), and the bottom end of the dredging assembly (303) is of a conical structure.

2. An injection molding apparatus for plastic product processing as claimed in claim 1, wherein: the bottom groove (101) is positioned under the injection mold, two clamping blocks (102) are welded on two sides of the bottom groove (101) respectively, two sides of each clamping block (102) are of an inclined structure, and the middle position of the inner side of each clamping block (102) is of an arc structure.

3. An injection molding apparatus for plastic product processing as claimed in claim 2, wherein: the front end bottom of mounting panel (103) is equipped with the arm-tie, and the bottom both sides of mounting panel (103) are fixed with two locating lever (104) respectively, and locating lever (104) joint is in the inboard of fixture block (102).

4. An injection molding apparatus for plastic product processing as claimed in claim 1, wherein: four support plates (105) are arranged in total, a baffle is fixed between the support plates (105) at two sides of the rear end, the bottom of the baffle is fixedly connected with a stress assembly (107), two auxiliary pieces (106) with different widths are fixed at the inner sides of the two support plates (105) at each side, the inner ends of the auxiliary pieces (106) are of wedge-shaped structures, and the auxiliary pieces (106) are made of flexible rubber materials.

5. An injection molding apparatus for plastic product processing as claimed in claim 1, wherein: the sliding blocks (201) are inserted into the sliding grooves in a sliding mode, two pull pieces (202) are fixed on the inner side of each sliding block (201), and the pull pieces (202) are made of flexible rubber materials.

6. An injection molding apparatus for plastic product processing as claimed in claim 1, wherein: every the outside of slider (201) is fixed with a guide (203), and the intermediate position of guide (203) is T shape axle construction, and the both sides of guide (203) are L shape structure, and the outside cover of every guide (203) is equipped with a spring, and the outside slip cap of every guide (203) is equipped with a limiting plate (204), and the outside and the spring contact of limiting plate (204), and every limiting plate (204) inboard is fixed with two spacing contact blocks, and spacing contact block and clean subassembly (2) contact.

7. An injection molding apparatus for plastic product processing as claimed in claim 1, wherein: the two stress rods (205) are arranged in total, the top ends of the two stress rods (205) are fixed with a bearing plate, and the top ends of the bearing plates are provided with small-sized vibration motors (206).

8. An injection molding apparatus for plastic product processing as claimed in claim 1, wherein: the supporting rod (301) is made of plastic, a supporting frame (304) is fixed at the bottom of the feeding assembly (3), the supporting frame (304) is fixedly connected with the injection molding equipment (1) through bolts, a material stopping groove is formed in the supporting frame (304), and the middle position of the material stopping groove is communicated with the inside of the feeding assembly (3).

9. An injection molding apparatus for plastic product processing as recited in claim 8, wherein: the right side of top of support frame (304) is fixed with direction head (305), and direction head (305) are constituteed by a rectangular block and two T shape axostylus axostyles, and the outside cover of direction head (305) is equipped with two springs, and the inside slip of stopping groove has inserted and has stopped material subassembly (306), and the inner of stopping material subassembly (306) is wedge structure, and the outer end of stopping material subassembly (306) is equipped with two round holes, and inside of round hole has inserted direction head (305), and the outside and the spring contact of stopping material subassembly (306).

10. An injection molding apparatus for plastic product processing as claimed in claim 9, wherein: an inner groove (307) is arranged at the inner included angle position of the material stopping component (306), the top end of the inner groove (307) is communicated with the top end of the material stopping component (306), and a blocking piece (308) is inserted into the inner groove (307).