CN216506602U - Injection molding machine convenient to move for toughness-enhanced plastic production - Google Patents

Abstract

The utility model discloses a conveniently-moving injection molding machine for producing toughness-enhanced plastics, which comprises a base, a fixing assembly and clamping assemblies, wherein rollers are fixedly connected below the base, a push handle is fixedly connected on the left side of the base, a water tank is arranged in the base, a water feeding pipe is arranged above the water tank, a water pump is arranged on the right side of the water tank, circulating pipes are arranged above the water pump, an caulking groove is formed between the circulating pipes, a bottom die is connected above the caulking groove in an embedded mode, a cover plate is arranged above the bottom die, lifting rods are symmetrically and fixedly connected above the cover plate, a sleeve pipe is arranged between the lifting rods, a sliding pipe is connected to the inner side of the sleeve pipe in a sliding mode, a storage bin is arranged above the sliding pipe, the fixing assemblies for fixing devices are arranged on the left side and the right side of the rollers, and the clamping assemblies for fixing the bottom die are arranged on the left side and the right side of the bottom die. The utility model ensures that the device is convenient to move and fix and can prevent materials from being blocked by matching parts of each part.

Description

Injection molding machine convenient to move for toughness-enhanced plastic production

Technical Field

The utility model relates to the technical field of injection molding machines, in particular to a conveniently-moved injection molding machine for producing toughness-enhanced plastics.

Background

Injection molding machines, also known as injection molding machines or injection molding machines. It is a main forming equipment for making various shaped plastic products from thermoplastic plastics or thermosetting plastics by using plastic forming mould. With the development of injection molding machines and the continuous expansion of the international market, a larger market and more commercial opportunities are brought to the market of auxiliary machines and peripheral equipment of the plastic molding machines.

The existing injection molding machine in the market is not convenient to move, and materials are easy to block due to cooling in the injection molding process, so that the injection molding machine with the toughness enhanced plastic production and convenient to move is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a conveniently-moving injection molding machine for producing toughness-enhanced plastics, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an injection molding machine which is used for producing toughness-enhanced plastics and is convenient to move comprises a base, a fixing component and a clamping component, wherein a roller is fixedly connected below the base, a pushing handle is fixedly connected on the left side of the base, a water tank is arranged in the base, a water feeding pipe is arranged above the water tank, a water pump is arranged on the right side of the water tank, and circulating pipes are arranged above the water pump, caulking grooves are arranged between the circulating pipes, a bottom die is connected above the caulking grooves in an embedded manner, a cover plate is arranged above the bottom die, and lifting rods are symmetrically and fixedly connected above the cover plate, a sleeve is arranged between the lifting rods, the inner side of the sleeve is connected with a sliding pipe in a sliding manner, a storage bin is arranged above the sliding pipe, the lower surface of the storage bin is provided with a discharge hole, the fixing assemblies are arranged on the left side and the right side of the roller and used for fixing the bottom die, and the clamping assemblies are arranged on the left side and the right side of the bottom die.

Further, the storage silo left and right sides is provided with the heating rod, and is provided with the force pump above the storage silo, the force pump left is provided with the feed inlet, and is provided with sealed lid above the feed inlet, the feed inlet passes through the storage silo and communicates with the discharge gate, and the discharge gate passes through sleeve pipe and slide tube and apron intercommunication.

Further, fixed subassembly includes smooth chamber, telescopic link, fagging, spout and slide bar, the fixedly connected with telescopic link in the smooth chamber, and telescopic link below fixedly connected with fagging, the smooth chamber left and right sides symmetry is provided with the spout, and the embedding of spout is connected with the slide bar.

Further, the telescopic link passes through smooth chamber and constitutes fixed knot structure with the base, and the fagging passes through the telescopic link and slides the chamber and constitute sliding structure with the base, the slide bar constitutes with the fagging to be connected, and the slide bar passes through the fagging and spout and constitutes sliding structure with the base.

Further, the chucking subassembly includes card chamber, spring, cardboard, fixture block, draw-in groove and buckle, card intracavity fixedly connected with spring, and the inboard fixedly connected with cardboard of spring, the cardboard below sets up the fixture block, and is provided with the draw-in groove above the cardboard, the embedding of draw-in groove is connected with the buckle.

Further, the cardboard passes through the spring and blocks the chamber and constitutes sliding construction, and fixture block and cardboard closely laminate, fixture block and die block fixed connection buckle and cardboard fixed connection, and the buckle passes through cardboard and draw-in groove and constitutes sliding construction.

Further, the sleeve pipe is fixedly connected with the storage bin, the sleeve pipe is tightly attached to the sliding pipe, the sliding pipe is fixedly connected with the cover plate, one end, far away from the cover plate, of the lifting rod is fixedly connected with the storage bin, and the sliding pipe forms a sliding structure with the sleeve pipe through the cover plate and the lifting rod.

The utility model provides a conveniently-moved injection molding machine for producing toughness-enhanced plastics, which has the following beneficial effects: the injection molding machine convenient to move for producing the toughness-enhanced plastic has the advantages that the device is convenient to move and fix through the matching of parts of each part, and the material blockage can be prevented;

1. according to the utility model, through the arrangement of the water pump, the water pump can circulate cooling water in the water tank around the caulking groove through the circulating pipe, the bottom die is cooled after injection molding is finished, the product is convenient to cool and form, the heating rod can insulate the heat of the storage bin during injection molding, the materials are prevented from being cooled in the storage bin and blocking the sleeve and the sliding pipe, and meanwhile, the sleeve and the sliding pipe can also be prevented from being polluted due to material leakage;

2. according to the device, through the arrangement of the fixing assemblies, after the device is pushed to a preset position through the push handle and the roller, the supporting plate is driven to descend by the telescopic rod, the base is jacked up, the roller leaves the ground, the device is fixed, meanwhile, the sliding rod can limit the supporting plate through the sliding groove, the supporting plate is prevented from being deviated in the moving process, and the fixing assemblies are more stably supported on the base due to the symmetrical distribution of the fixing assemblies;

3. according to the clamping assembly, when the bottom die is placed in the caulking groove, the clamping plate can slide outwards under the pressure of the clamping block, the spring is compressed, and the clamping buckle is driven to move in the clamping groove, so that after the bottom die is completely embedded in the caulking groove, the clamping plate can rebound under the elastic force of the spring, the bottom die is fixed through the clamping block, the bottom die is prevented from being deviated, and the bottom die can be released from being fixed only by shifting the clamping buckle in the clamping groove when the bottom die is replaced.

Drawings

FIG. 1 is a schematic cross-sectional front view of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

fig. 3 is an enlarged schematic view of the structure at B in fig. 1 according to the present invention.

In the figure: 1. a base; 2. a roller; 3. a push handle; 4. a water tank; 5. a water feeding pipe; 6. a water pump; 7. a circulation pipe; 8. caulking grooves; 9. bottom die; 10. a cover plate; 11. a lifting rod; 12. a sleeve; 13. a slide pipe; 14. a storage bin; 15. a discharge port; 16. a heating rod; 17. a pressure pump; 18. a feed inlet; 19. a sealing cover; 20. a fixing assembly; 2001. a slide chamber; 2002. a telescopic rod; 2003. a supporting plate; 2004. a chute; 2005. a slide bar; 21. a clamping assembly; 2101. a card cavity; 2102. a spring; 2103. clamping a plate; 2104. a clamping block; 2105. a card slot; 2106. and (5) buckling.

Detailed Description

As shown in fig. 1, 2 and 3, a conveniently moving injection molding machine for producing toughness-enhanced plastics comprises a base 1, a fixing component 20 and a clamping component 21, wherein rollers 2 are fixedly connected below the base 1, a pushing handle 3 is fixedly connected on the left side of the base 1, a water tank 4 is arranged in the base 1, a water feeding pipe 5 is arranged above the water tank 4, a water pump 6 is arranged on the right side of the water tank 4, a circulating pipe 7 is arranged above the water pump 6, an embedding groove 8 is arranged between the circulating pipes 7, a bottom die 9 is embedded and connected above the embedding groove 8, a cover plate 10 is arranged above the bottom die 9, lifting rods 11 are symmetrically and fixedly connected above the cover plate 10, a sleeve 12 is arranged between the lifting rods 11, a sliding pipe 13 is slidably connected on the inner side of the sleeve 12, a storage bin 14 is arranged above the sliding pipe 13, a discharge port 15 is arranged on the lower surface of the storage bin 14, the fixing component 20 for fixing device is arranged on the left side and the right side of the rollers 2, the clamping assemblies 21 for fixing the bottom die 9 are arranged on the left side and the right side of the bottom die 9, the sleeve 12 is fixedly connected with the storage bin 14, the sleeve 12 is tightly attached to the sliding pipe 13, the sliding pipe 13 is fixedly connected with the cover plate 10, one end, far away from the cover plate 10, of the lifting rod 11 is fixedly connected with the storage bin 14, and the sliding pipe 13 forms a sliding structure with the sleeve 12 through the cover plate 10 and the lifting rod 11.

As shown in fig. 1, heating rods 16 are arranged on the left side and the right side of a storage bin 14, a pressure pump 17 is arranged above the storage bin 14, a feeding port 18 is arranged on the left side of the pressure pump 17, a sealing cover 19 is arranged above the feeding port 18, the feeding port 18 is communicated with a discharging port 15 through the storage bin 14, the discharging port 15 is communicated with a cover plate 10 through a sleeve 12 and a sliding pipe 13, and a water pump 6 is arranged, so that the water pump 6 can circulate cooling water in a water tank 4 around a caulking groove 8 through a circulating pipe 7, the bottom die 9 is cooled after injection molding is completed, product cooling and forming are facilitated, the heating rods 16 can insulate the storage bin 14 during injection molding, cooling of materials in the storage bin 14 is avoided, the sleeve 12 and the sliding pipe 13 are blocked, and meanwhile, the sleeve 12 and the sliding pipe 13 can also avoid material leakage and pollution.

As shown in fig. 1 and 2, the fixing assembly 20 includes a sliding chamber 2001, a telescopic rod 2002, a supporting plate 2003, a sliding groove 2004 and a sliding rod 2005, the telescopic rod 2002 is fixedly connected in the sliding chamber 2001, the supporting plate 2003 is fixedly connected below the telescopic rod 2002, the sliding grooves 2004 are symmetrically arranged on the left side and the right side of the sliding chamber 2001, the sliding groove 2004 is embedded and connected with the sliding rod 2005, the telescopic rod 2002 forms a fixed structure with the base 1 through the sliding chamber 2001, the supporting plate 2003 forms a sliding structure with the base 1 through the telescopic rod 2002 and the sliding chamber 2001, the sliding rod 2005 forms a sliding structure with the base 1 through the supporting plate 2003 and the sliding groove 2004, through the arrangement of the fixing assembly 20, after the device is pushed to a predetermined position through the push handle 3 and the roller 2, the telescopic rod 2002 drives the supporting plate 2003 to descend, the base 1 is jacked up and the roller 2 leaves the ground, the device is fixed, and the sliding rod 2005 can limit the supporting plate 2003 through the sliding groove 2004, the bracing plate 2003 is prevented from shifting during the moving process, and the symmetrical distribution of the fixing components 20 makes the support of the base 1 by the fixing components 20 more stable.

As shown in fig. 1 and 3, the clamping assembly 21 includes a clamping cavity 2101, a spring 2102, a clamping plate 2103, a clamping block 2104, a clamping groove 2105 and a buckle 2106, the spring 2102 is fixedly connected in the clamping cavity 2101, the clamping plate 2103 is fixedly connected inside the spring 2102, the clamping block 2104 is arranged below the clamping plate 2103, the clamping groove 2105 is arranged above the clamping plate 2103, the buckle 2106 is embedded in the clamping groove 2105, the clamping plate 2103 forms a sliding structure through the spring 2102 and the clamping cavity 2101, the clamping block 2104 is tightly attached to the clamping plate 2103, the clamping block 2104 and the bottom mold 9 are fixedly connected to the buckle 2106 and the clamping plate 2103, the buckle 2106 forms a sliding structure through the clamping plate 2103 and the clamping groove 2105, through the arrangement of the clamping assembly 21, when the bottom mold 9 is placed in the clamping groove 8, the clamping plate 2103 can slide outward under the pressure of the clamping block 2104, the spring 2106 is compressed and drives the buckle 2106 to move in the clamping groove 2105, so that after the bottom mold 9 is completely embedded in the clamping groove 8, the clamping plate 2103 can rebound under the action of the elastic force of the spring 2102, the bottom die 9 is fixed through the clamping block 2104, the bottom die 9 is prevented from deviating, and the bottom die 9 can be removed only by pulling the clamping buckle 2106 in the clamping groove 2105 when the bottom die 9 is replaced.

In summary, when the injection molding machine convenient to move for producing tough-reinforced plastic is used, according to the structure shown in fig. 1, fig. 2 and fig. 3, after the device is pushed to a predetermined position by the push handle 3 and the roller 2, the telescopic rod 2002 drives the supporting plate 2003 to descend, the base 1 is jacked up and the roller 2 leaves the ground, the device is fixed, meanwhile, the sliding rod 2005 can limit the supporting plate 2003 through the sliding groove 2004, so as to prevent the supporting plate 2003 from deviating in the moving process, and the symmetrical distribution of the fixing components 20 enables the fixing components 20 to more stably support the base 1, then the material is added into the storage bin 14 from the feed inlet 18, then the sealing cover 19 is closed, the bottom mold 9 is placed into the caulking groove 8, the clamping plate 2103 slides outwards under the pressure of the clamping block 2104, the spring 2102 is compressed and drives the clamping buckle 2106 to move in the clamping groove 2105, so that after the bottom mold 9 is completely embedded into the caulking groove 8, cardboard 2103 can kick-back under the spring action of spring 2102, it is fixed with die block 9 through fixture block 2104, avoid die block 9 skew, then lifter 11 drives apron 10 descends, cover die block 9 completely, the material in force pump 17 with storage silo 14 is impressed in sleeve pipe 12 and slide pipe 13 through discharge gate 15, rethread apron 10 pours into die block 9 into, heating rod 16 can keep warm to storage silo 14 when moulding plastics, avoid the material in storage silo 14 internal cooling, cause the jam to sleeve pipe 12 and slide pipe 13, sleeve pipe 12 and slide pipe 13 also can avoid the material to reveal simultaneously and cause the pollution, water pump 6 can circulate the cooling water in water tank 4 around caulking groove 8 through circulating pipe 7, cool off die block 9 after the completion of moulding plastics, the product cooling shaping of being convenient for, only need stir buckle 2106 in draw-in groove 2105 when changing die block 9 alright release the fixing to die block 9.

Claims (7)

1. The utility model provides an injection molding machine that toughness reinforcing type plastics production was used and is convenient for remove, includes base (1), fixed subassembly (20) and chucking subassembly (21), its characterized in that, base (1) below fixedly connected with gyro wheel (2), and base (1) left fixedly connected with push away (3), be provided with water tank (4) in base (1), and be provided with filler pipe (5) above water tank (4), water tank (4) right-hand water pump (6) that are provided with, and water pump (6) top is provided with circulating pipe (7), be provided with caulking groove (8) between circulating pipe (7), and caulking groove (8) top gomphosis is connected with die block (9), die block (9) top is provided with apron (10), and apron (10) top symmetry fixedly connected with lifter (11), be provided with sleeve pipe (12) between lifter (11), and sleeve pipe (12) inboard sliding connection has slide pipe (13), slide pipe (13) top is provided with storage silo (14), and storage silo (14) lower surface is provided with discharge gate (15), is used for fixing device fixed subassembly (20) set up in gyro wheel (2) left and right sides for fixed die block (9) chucking subassembly (21) set up in the die block (9) left and right sides.

2. The injection molding machine convenient to move for producing toughness-enhanced plastics, as claimed in claim 1, wherein heating rods (16) are disposed on the left and right sides of the storage bin (14), a pressure pump (17) is disposed above the storage bin (14), a feed inlet (18) is disposed on the left of the pressure pump (17), a sealing cover (19) is disposed above the feed inlet (18), the feed inlet (18) is communicated with the discharge outlet (15) through the storage bin (14), and the discharge outlet (15) is communicated with the cover plate (10) through a sleeve (12) and a sliding pipe (13).

3. The injection molding machine for producing tough-reinforced plastic, which is convenient to move, according to claim 1, wherein the fixing component (20) comprises a sliding cavity (2001), a telescopic rod (2002), a supporting plate (2003), sliding grooves (2004) and a sliding rod (2005), the telescopic rod (2002) is fixedly connected in the sliding cavity (2001), the supporting plate (2003) is fixedly connected below the telescopic rod (2002), the sliding cavity (2001) is symmetrically provided with the sliding grooves (2004) at the left side and the right side, and the sliding rod (2005) is embedded and connected in the sliding grooves (2004).

4. The injection molding machine for producing tough-reinforced plastic, which is convenient to move, according to claim 3, wherein the telescopic rod (2002) forms a fixed structure with the base (1) through the sliding cavity (2001), the supporting plate (2003) forms a sliding structure with the base (1) through the telescopic rod (2002) and the sliding cavity (2001), the sliding rod (2005) forms a connection with the supporting plate (2003), and the sliding rod (2005) forms a sliding structure with the base (1) through the supporting plate (2003) and the sliding groove (2004).

5. The injection molding machine convenient to move for producing tough-reinforced plastic according to claim 1, wherein the clamping assembly (21) comprises a clamping cavity (2101), a spring (2102), a clamping plate (2103), a clamping block (2104), a clamping groove (2105) and a buckle (2106), the spring (2102) is fixedly connected in the clamping cavity (2101), the clamping plate (2103) is fixedly connected on the inner side of the spring (2102), the clamping block (2104) is arranged below the clamping plate (2103), the clamping groove (2105) is arranged above the clamping plate (2103), and the buckle (2106) is embedded and connected in the clamping groove (2105).

6. The injection molding machine convenient to move for producing tough-reinforced plastic according to claim 5, wherein the clamping plate (2103) forms a sliding structure through the spring (2102) and the clamping cavity (2101), the clamping block (2104) is tightly attached to the clamping plate (2103), the clamping block (2104) and the bottom die (9) are fixedly connected, the buckle (2106) is fixedly connected to the clamping plate (2103), and the buckle (2106) forms a sliding structure through the clamping plate (2103) and the clamping groove (2105).

7. The injection molding machine convenient to move for producing toughness-enhanced plastics of claim 1, wherein the sleeve (12) is fixedly connected with the storage bin (14), the sleeve (12) is tightly attached to the sliding pipe (13), the sliding pipe (13) is fixedly connected with the cover plate (10), one end, far away from the cover plate (10), of the lifting rod (11) is fixedly connected with the storage bin (14), and the sliding pipe (13) forms a sliding structure with the sleeve (12) through the cover plate (10) and the lifting rod (11).

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