CN113001868A

CN113001868A - Intelligent manufacturing heating shaping device

Info

Publication number: CN113001868A
Application number: CN202110280738.8A
Authority: CN
Inventors: 潘永顺
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-16
Filing date: 2021-03-16
Publication date: 2021-06-22

Abstract

The invention relates to a heating shaping device, in particular to a heating shaping device for intelligent manufacturing. Need design one kind and make things convenient for people to heat moulding to plastics, work efficiency is high, and the intelligent manufacturing of difficult scald is with moulding device of heating. The utility model provides a moulding device of heating for intelligent manufacturing, including: a base, wherein a supporting seat is arranged on one side of the base; the supporting block is arranged on the base; and the material conveying mechanism is arranged between the base and the supporting seat and used for conveying plastics. According to the plastic injection molding machine, a proper amount of plastic is placed into the material conveying mechanism, the material conveying mechanism is started to operate, the material conveying mechanism operates to drive the plastic to move leftwards, the hot melting injection molding mechanism is started to operate to heat and dissolve the plastic, the plastic moves leftwards to the inside of the hot melting injection molding mechanism, the hot melting injection molding mechanism continues to operate to shape the dissolved plastic, and therefore the plastic can be heated and shaped without being manually operated by people, the operation is convenient, and the working efficiency is high.

Description

Intelligent manufacturing heating shaping device

Technical Field

The invention relates to a heating shaping device, in particular to a heating shaping device for intelligent manufacturing.

Background

When a person needs to make plastic into a desired module, the plastic is subjected to heat shaping. At present, most of plastics are manually heated and molded, a proper amount of plastics are heated and dissolved by people, then the dissolved plastics are poured into a mold and are placed for a period of time to be cooled and hardened, so that the operation is troublesome, the working efficiency is low, and the temperature of the dissolved plastics is high, and if the dissolved plastics are carelessly contacted with the skin of people, scalding is caused.

Therefore, people can conveniently heat and shape plastics, the work efficiency is high, and the intelligent heating and shaping device for manufacturing is not easy to scald, so that the problems in the prior art are solved.

Disclosure of Invention

In order to overcome the defects that plastics are heated and dissolved and then poured into a mould to be cooled and hardened, the operation is troublesome, the working efficiency is low, and the plastics are contacted with the skin of people after being dissolved to cause scalding, the technical problems to be solved are as follows: the utility model provides a make things convenient for people to heat moulding to plastics, work efficiency is high, and is difficult for the intelligent manufacturing of scald to use moulding device of heating.

The technical scheme of the invention is as follows: the utility model provides a moulding device of heating for intelligent manufacturing, including: a base, wherein a supporting seat is arranged on one side of the base; the supporting block is arranged on the base; the material conveying mechanism is arranged between the base and the supporting seat and is used for conveying plastics; and the hot melting injection molding mechanism is arranged between the material conveying mechanism and the base and between the material conveying mechanism and the supporting block and is used for heating and molding plastics.

In one embodiment, the material conveying mechanism comprises: the servo motor is arranged on the base; the L-shaped block is arranged on the base; the driving shaft is rotatably arranged between the L-shaped block and the supporting seat and is fixedly connected with an output shaft of the servo motor; the material conveying fan blades are arranged on the driving shaft; the mounting blocks are symmetrically mounted on the base; the material transporting shell is arranged between the two mounting blocks; the pushing thread block is arranged on the driving shaft in a sliding manner; the pushing spring is arranged between the pushing thread block and the driving shaft; and the feeding hopper is arranged on the material conveying shell and communicated with the material conveying shell.

In one embodiment, the hot-melt injection molding mechanism comprises: the heat insulation shell is arranged on the material conveying shell; the heating pipes are arranged on the heat insulation shell at intervals; the discharging heating pipe is arranged on the material conveying shell and communicated with the material conveying shell; the telescopic cylinder is arranged on the supporting block; the number of the mounting side plates is two, and the mounting side plates are mounted on the base; the guide post is arranged on the mounting side plate; the injection molding module is arranged between the two guide posts in a sliding mode and is fixedly connected with the end part of the telescopic rod of the telescopic cylinder; and the cooling template is arranged between the two guide columns and is fixedly connected and communicated with the discharging heating pipe.

In one of them embodiment, still including unloading mechanism, unloading mechanism includes: the stripping top plate is arranged between the two guide columns, is in sliding fit with the telescopic cylinder, and is in sliding fit with the injection molding module; the first limiting springs are four in number and are wound on the stripping top plate at intervals; the stripper plate is arranged on the injection molding module in a sliding manner; the number of the second limiting springs is four, and the second limiting springs are arranged between the stripper plate and the injection molding module; the lock mounting plate is mounted on the injection molding module; the limiting frame is arranged on the injection molding module; the locking block is arranged between the limiting frame and the lock mounting plate in a sliding manner; the locking spring is wound between one side of the lock mounting plate and the locking block; and the fixed lock is arranged on the stripper plate and matched with the lock block.

In one of them embodiment, still including blank mechanism, blank mechanism includes: the limiting rods are symmetrically and slidably arranged on the cooling template; the stress block is arranged between the two limiting rods; the first positioning spring is arranged between the limiting rod and the cooling template; the positioning guide rods are symmetrically arranged on the cooling template; the cutting plate is arranged between the two positioning guide rods in a sliding manner; and the second positioning spring is wound between one side of the cutting plate and the positioning guide rod.

In one of them embodiment, still including the material loading complementary unit, the material loading complementary unit includes: the transmission worm is rotatably arranged on the L-shaped block; the belt transmission assembly is arranged between the transmission worm and the driving shaft; the worm wheel is rotatably arranged on the feeding hopper and meshed with the transmission worm; the flabellum stirs the board, and the flabellum stirs the board and installs on the worm wheel.

In one of them embodiment, still including receiving mechanism, receiving mechanism is including: the fixed shaft is rotatably arranged on one of the mounting side plates; the material receiving plate is arranged on the fixed shaft; the material receiving frame is placed on the base.

In one embodiment, the material of the cutting plate is iron.

The beneficial effects are that:

1. through putting into fortune material mechanism with appropriate amount of plastics in, start fortune material mechanism's function, fortune material mechanism's function drives plastics and removes left, and starts the hot melt and mould plastics mechanism's function and heat plastics and dissolve, and then plastics move left to the hot melt and mould plastics in the mechanism, and the hot melt is moulded plastics and is continued the function and carry out moulding with the plastics after dissolving, so, can need not that people are manual to heat plastics moulding, convenient operation, work efficiency is high.

2. Through the effect of unloading mechanism, can be so that extrude the module of moulding completion, so, need not people and manually take off the module of moulding completion, convenient and fast.

3. Through receiving device's effect, can collect the module of moulding completion, so, can make things convenient for people to collect the module of moulding completion.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first embodiment of the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

Fig. 4 is a schematic perspective view of a second embodiment of the present invention.

Fig. 5 is a third perspective view of the present invention.

Fig. 6 is an enlarged view of part B of the present invention.

Labeled as: 1-a base, 2-a supporting seat, 3-a supporting block, 4-a material conveying mechanism, 41-a servo motor, 42-a driving shaft, 43-a material conveying fan blade, 44-a material conveying shell, 45-a material pushing screw block, 46-a material pushing spring, 47-a feeding hopper, 48-an L-shaped block, 49-a mounting block, 5-a hot melting injection molding mechanism, 51-a heating pipe, 52-a heat insulation shell, 53-a material discharging heating pipe, 54-a telescopic cylinder, 55-a mounting side plate, 56-a guide column, 57-an injection molding module, 58-a cooling template, 6-a blanking mechanism, 61-a material stripping top plate, 62-a first limiting spring, 63-a demoulding plate, 64-a second limiting spring, 65-a lock mounting plate and 66-a locking spring, 67-a limiting frame, 68-a locking block, 69-a fixed lock, 7-a material cutting mechanism, 71-a material cutting plate, 72-a stress block, 73-a limiting rod, 74-a first positioning spring, 75-a positioning guide rod, 76-a second positioning spring, 8-a material feeding auxiliary mechanism, 81-a belt transmission component, 82-a transmission worm, 83-a worm wheel, 84-a fan blade stirring plate, 9-a material receiving mechanism, 91-a material receiving plate, 92-a fixed shaft and 93-a material receiving frame.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.

Example 1

The utility model provides a moulding device of heating for intelligent manufacturing, as shown in fig. 1-4, including base 1, supporting seat 2, supporting shoe 3, fortune material mechanism 4 and hot melt mechanism 5 of moulding plastics, base 1 top right side rear portion rigid coupling has supporting seat 2, base 1 top left side rear portion rigid coupling has supporting shoe 3, be equipped with fortune material mechanism 4 between base 1 and the supporting seat 2, fortune material mechanism 4 and base 1 and supporting shoe 3 between be equipped with hot melt mechanism 5 of moulding plastics.

The material conveying mechanism 4 comprises a servo motor 41, a driving shaft 42, material conveying fan blades 43, a material conveying shell 44, a material pushing thread block 45, a material pushing spring 46, a feeding hopper 47, an L-shaped block 48 and a mounting block 49, the servo motor 41 is fixedly connected to the rear part of the right side of the top of the base 1, the L-shaped block 48 is fixedly connected to the rear part of the right side of the top of the base 1, the driving shaft 42 is rotatably arranged between the lower part of the L-shaped block 48 and the lower part of the supporting seat 2, the right end of the driving shaft 42 is fixedly connected with an output shaft of the servo motor 41, the mounting blocks 49 are symmetrically fixedly connected to the middle part of the rear side of the top of the base 1, the material conveying shell 44 is fixedly connected between the upper parts of the left and right mounting blocks 49, the left part of the driving shaft 42 is rotatably connected in the material conveying shell 44, the material conveying fan blades 43 are fixedly connected to, the right side of the top of the material conveying shell 44 is fixedly connected with and communicated with a feeding hopper 47.

The hot melting injection molding mechanism 5 comprises a heating pipe 51, a heat insulation shell 52, a discharging heating pipe 53, a telescopic cylinder 54, a mounting side plate 55, a guide post 56, an injection molding module 57 and a cooling template 58, fortune material shell 44 middle part circumference rigid coupling has thermal-insulated shell 52, the inboard circumference interval rigid coupling of thermal-insulated shell 52 has heating pipe 51, fortune material shell 44 left part rigid coupling has ejection of compact heating pipe 53 and communicates, the top rigid coupling has telescopic cylinder 54 in the supporting

shoe

3, 1 base top left side rear portion rigid coupling has two installation curb plates 55, the rigid coupling has guide post 56 between the left and right sides upper portion in the installation curb plate 55, the slidingtype is equipped with mould plastics module 57 between the front and back both sides guide post 56 circumference, mould plastics module 57 left surface and telescopic cylinder 54's telescopic link end fixed connection, the rigid coupling has cooling die plate 58 between the front and back both sides guide post 56 right part circumference, cooling die plate 58 and ejection of compact heating pipe 53 fixed connection and intercommunication.

Firstly, an operator puts a proper amount of plastic into the material conveying mechanism 4, the material conveying mechanism 4 is started to operate, the material conveying mechanism 4 operates to drive the plastic to move leftwards, the hot-melting injection molding mechanism 5 operates to heat and dissolve the plastic, the plastic moves leftwards to the hot-melting injection molding mechanism 5, the hot-melting injection molding mechanism 5 continues to operate to shape the dissolved plastic, the plastic after shaping is taken down to be subjected to subsequent treatment, the operation is repeated, the plastic can be continuously heated and shaped, after the whole plastic is heated and shaped, the material conveying mechanism 4 is closed to stop operating, and the hot-melting injection molding mechanism 5 is closed to stop operating.

Firstly, an operator puts a proper amount of plastic into a feeding hopper 47, a servo motor 41 is started, the servo motor 41 drives a driving shaft 42 to rotate reversely, the driving shaft 42 rotates reversely to drive a material conveying fan blade 43 to rotate reversely, the material conveying fan blade 43 rotates reversely to drive the plastic to move leftwards, the hot-melting injection molding mechanism 5 is started to operate, the hot-melting injection molding mechanism 5 heats and dissolves the plastic, the driving shaft 42 rotates reversely to drive a material pushing thread block 45 to rotate reversely, the material pushing thread block 45 rotates reversely to enable the plastic to be discharged into the hot-melting injection molding mechanism 5 to be molded, a material pushing spring 46 plays a role in buffering, the molded plastic is taken down for subsequent treatment, the operation is repeated, the plastic can be heated and molded continuously, after all plastic is heated and molded, the servo motor 41 is turned off, the driving shaft 42 stops driving the material conveying fan blade 43.

When the servo motor 41 is started, the material conveying fan blades 43 reversely rotate to drive the plastic to move leftwards, the heating pipe 51 heats and dissolves the plastic, the material pushing thread blocks 45 reversely rotate to enable the plastic to be discharged into the cooling template 58 through the discharging heating pipe 53, meanwhile, the telescopic cylinder 54 is started to stretch once, the telescopic rod of the telescopic cylinder 54 moves rightwards to drive the injection molding module 57 to move rightwards, the injection molding module 57 moves rightwards to be matched with the cooling template 58 to shape the dissolved plastic, after the plastic is shaped, the telescopic cylinder 54 drives the injection molding module 57 to move leftwards to reset, and the plastic which is shaped is taken down from the injection molding module 57 to be subjected to subsequent processing.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 5 and 6, the injection molding machine further comprises a blanking mechanism 6, wherein the blanking mechanism 6 comprises a stripping top plate 61, a first limit spring 62, a stripping plate 63, a second limit spring 64, a lock mounting plate 65, a locking spring 66, a limit frame 67, a lock block 68 and a fixed lock 69, the stripping top plate 61 is fixedly connected between the left parts of the front and rear guide posts 56 along the circumferential direction, the stripping top plate 61 is in sliding fit with the telescopic cylinder 54, the stripping top plate 61 is matched with the injection molding module 57, the four first limit springs 62 are wound around the right part of the stripping top plate 61 at intervals, the stripping plate 63 is slidably arranged on the injection molding module 57, the four second limit springs 64 are fixedly connected between the end part of the stripping plate 63 and the inside of the injection molding module 57 at even intervals, the lock mounting plate 65 is fixedly connected to the right side of the upper part of the rear side of the injection molding module 57, the limit frame 67 is fixedly, the limiting frame 67 is located at the lower part of the lock mounting plate 65, a lock block 68 is arranged between the limiting frame 67 and the lock mounting plate 65 in a sliding mode, a locking spring 66 is wound between the bottom of the lock mounting plate 65 and the upper part of the lock block 68, a fixed lock 69 is fixedly connected to the upper part of the rear side face of the stripper plate 63, the fixed lock 69 is matched with the lock block 68, and the bottom of the lock block 68 is matched with the mounting side plate 55.

The cooling template device is characterized by further comprising a cutting mechanism 7, wherein the cutting mechanism 7 comprises a cutting plate 71, a stress block 72, a limiting rod 73, a first positioning spring 74, a positioning guide rod 75 and a second positioning spring 76, the limiting rod 73 is symmetrically and slidably arranged on the upper portion of the cooling template 58, the stress block 72 is fixedly connected between the left ends of the limiting rods 73 on the front side and the rear side, the first positioning spring 74 is fixedly connected between the right end of the limiting rod 73 and the inside of the cooling template 58, the positioning guide rod 75 is symmetrically and fixedly connected to the bottom of the cooling template 58, the cutting plate 71 is slidably arranged between the positioning guide rods 75 on the front side and the rear side, the cutting plate 71 is matched with the stress block 72, and the second positioning spring 76 is wound between the bottom of the cutting plate 71.

When the servo motor 41 is started, the material pushing thread block 45 rotates reversely to enable the plastic to be discharged through the material discharging heating pipe 53, the telescopic rod of the telescopic cylinder 54 moves rightwards to drive the injection molding module 57 to move rightwards, the injection molding module 57 moves rightwards to drive the demoulding plate 63 to move rightwards, the demoulding plate 63 moves rightwards to contact with the cooling template 58, the lock block 68 is separated from the installation side plate 55, the cooling template 58 enables the demoulding plate 63 to move leftwards, the second limiting spring 64 is compressed, meanwhile, the demoulding plate 63 moves leftwards to drive the fixed lock 69 to move leftwards, the fixed lock 69 moves leftwards to be inserted into the lock block 68, due to the action of the locking spring 66, the fixed lock 69 slides over the lock block 68, the injection molding module 57 is matched with the demoulding plate 63 to shape the dissolved plastic, and after the shaping is completed, the injection molding module 57 moves leftwards to drive, locking piece 68 rebound, locking spring 66 is compressed, and fixed lock 69 also breaks away from with locking piece 68, because of the effect of the spacing spring 64 of second, stripper plate 63 moves right and resets, and stripper plate 63 extrudes the module of moulding completion and drops to base 1 on, when the back of the moulding completion of whole plastics, takes up the module of moulding completion on the base 1 and collects and carry out subsequent processing, so, need not that people's manual module of accomplishing with moulding takes off convenient and fast.

When the servo motor 41 is started, the material pushing thread block 45 reversely rotates to pass through the material discharging heating pipe 53, so that the plastic is discharged into the cooling template 58, and the injection molding module 57 moves rightwards to drive the demoulding plate 63 to move rightwards, the demoulding plate 63 moves rightwards to contact with the force bearing block 72, the demoulding plate 63 drives the force bearing block 72 to move rightwards, the force bearing block 72 moves rightwards to drive the limiting rod 73 to move rightwards, the first positioning spring 74 is compressed, and the force bearing block 72 moves rightwards to drive the material cutting plate 71 to move downwards, the second positioning spring 76 is compressed, the material cutting plate 71 moves downwards to cut the plastic, when the stripper plate 63 moves leftwards to be separated from the stress block 72, the limiting rod 73 drives the stress block 72 to move leftwards to reset under the action of the first positioning spring 74, and the blanking plate 71 also moves upwards to reset under the action of the second positioning spring 76, so that excessive plastic is prevented from being remained on the cooling template 58.

Example 3

On the basis of the embodiment 1 and the embodiment 2, as shown in fig. 1, fig. 2 and fig. 4, the feeding auxiliary mechanism 8 is further included, the feeding auxiliary mechanism 8 includes a belt transmission component 81, a transmission worm 82, a worm wheel 83 and a blade stirring plate 84, the transmission worm 82 is rotatably arranged on the upper portion of the L-shaped block 48, the belt transmission component 81 is connected between the right circumferential portion of the transmission worm 82 and the right circumferential portion of the driving shaft 42, the worm wheel 83 is rotatably arranged in the feeding hopper 47, the worm wheel 83 is meshed with the transmission worm 82, and the blade stirring plate 84 is fixedly connected to the lower circumferential portion of the worm wheel 83.

Still including receiving mechanism 9, receiving mechanism 9 is including connecing flitch 91, fixed axle 92 and receiving material frame 93, and rear installation curb plate 55 lower part rotary type is equipped with fixed axle 92, and fixed axle 92 middle part circumference rigid coupling has the flitch 91 of connecing, and receiving material frame 93 has been placed to base 1 top front side left part.

Firstly, an operator puts a proper amount of plastic into the feeding hopper 47, the plastic is in contact with the fan blade stirring plate 84, when the servo motor 41 is started, the belt transmission assembly 81 is driven to rotate reversely by the reverse rotation of the driving shaft 42, the transmission worm 82 is driven to rotate reversely by the reverse rotation of the belt transmission assembly 81, the worm wheel 83 is driven to rotate reversely by the reverse rotation of the transmission worm 82, the fan blade stirring plate 84 is driven to rotate reversely by the reverse rotation of the fan blade stirring plate 84, the plastic is stirred by the reverse rotation of the fan blade stirring plate 84, after all the plastic is heated and shaped, the driving shaft 42 stops driving the transmission worm 82 to rotate reversely by the belt transmission assembly 81, and the fan blade stirring plate 84 also rotates reversely.

When the injection molding module 57 moves leftwards and resets, the demoulding plate 63 extrudes the molded module, then the module drops into the material receiving frame 93 through the material receiving plate 91, after the material receiving frame 93 is provided with a proper amount of modules, the material receiving frame 93 is taken up to carry out subsequent processing on the module, and after the module processing is completed, the material receiving frame 93 is put back to the base 1. Therefore, people can conveniently collect the molded module.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a moulding device of heating for intelligent manufacturing which characterized in that, including:

the device comprises a base (1), wherein a supporting seat (2) is arranged on one side of the base (1);

the supporting block (3), the supporting block (3) is installed on the base (1);

the material conveying mechanism (4) is arranged between the base (1) and the supporting seat (2) and is used for conveying plastics;

and the hot melting injection molding mechanism (5) is arranged between the material conveying mechanism (4) and the base (1) and between the material conveying mechanism and the supporting block (3) and is used for heating and molding plastics.

2. The heating and shaping device for intelligent manufacturing according to claim 1, wherein the material conveying mechanism (4) comprises:

the servo motor (41), the servo motor (41) is installed on the base (1);

the L-shaped block (48), the L-shaped block (48) is installed on the base (1);

the driving shaft (42), the driving shaft (42) is installed between L-shaped block (48) and supporting seat (2) rotatably, it is fixedly connected with output shaft of the servomotor (41);

the material conveying fan blades (43), and the material conveying fan blades (43) are arranged on the driving shaft (42);

the mounting blocks (49), the mounting blocks (49) are symmetrically mounted on the base (1);

the material conveying shell (44), and the material conveying shell (44) is arranged between the two mounting blocks (49);

the pushing thread block (45), the pushing thread block (45) is arranged on the driving shaft (42) in a sliding way;

the pushing spring (46), the pushing spring (46) is installed between the pushing thread block (45) and the driving shaft (42);

and the feeding hopper (47), the feeding hopper (47) is arranged on the material conveying shell (44) and communicated with the material conveying shell.

3. The heating and molding device for intelligent manufacturing according to claim 2, wherein the hot-melt injection molding mechanism (5) comprises:

the heat insulation shell (52), the heat insulation shell (52) is installed on the material conveying shell (44);

the heating pipes (51), the heating pipes (51) are installed on the heat insulation shell (52) at intervals;

the discharging heating pipe (53), the discharging heating pipe (53) is arranged on the conveying shell (44) and communicated with the conveying shell;

the telescopic cylinder (54), the telescopic cylinder (54) is installed on the supporting block (3);

the number of the mounting side plates (55) is two, and the mounting side plates (55) are mounted on the base (1);

the guide post (56), the guide post (56) is installed on the installation side plate (55);

the injection molding module (57), the injection molding module (57) is slidably mounted between the two guide posts (56) and is fixedly connected with the end part of the telescopic rod of the telescopic cylinder (54);

and the cooling template (58) is arranged between the two guide columns (56) and is fixedly connected and communicated with the discharging warming pipe (53).

4. The heating and shaping device for intelligent manufacturing according to claim 3, further comprising a blanking mechanism (6), wherein the blanking mechanism (6) comprises:

the stripping top plate (61), the stripping top plate (61) is installed between the two guide columns (56) and is in sliding fit with the telescopic cylinder (54), and the stripping top plate (61) is in sliding fit with the injection molding module (57);

the number of the first limiting springs (62) is four, and the first limiting springs (62) are wound on the stripping top plate (61) at intervals;

the stripper plate (63), the stripper plate (63) is installed on the injection molding module (57) in a sliding way;

the number of the second limit springs (64) is four, and the second limit springs (64) are arranged between the stripper plate (63) and the injection molding module (57);

the lock mounting plate (65), the lock mounting plate (65) is installed on the injection molding module (57);

the limiting frame (67), the limiting frame (67) is installed on the injection molding module (57);

the locking block (68), the locking block (68) is slidably mounted between the limiting frame (67) and the lock mounting plate (65);

the locking spring (66), the locking spring (66) is wound between one side of the lock mounting plate (65) and the locking block (68);

and the fixed lock (69), the fixed lock (69) is arranged on the stripper plate (63), and the fixed lock (69) is matched with the lock block (68).

5. The heating and shaping device for intelligent manufacturing according to claim 4, further comprising a material cutting mechanism (7), wherein the material cutting mechanism (7) comprises:

the limiting rod (73), the limiting rod (73) is symmetrically and slidably installed on the cooling template (58);

the stress block (72) is arranged between the two limiting rods (73);

the first positioning spring (74), the first positioning spring (74) is installed between the limiting rod (73) and the cooling template (58);

the positioning guide rods (75), the positioning guide rods (75) are symmetrically arranged on the cooling template (58);

the cutting plate (71), the cutting plate (71) is arranged between the two positioning guide rods (75) in a sliding manner;

and the second positioning spring (76), and the second positioning spring (76) is wound between one side of the cutting plate (71) and the positioning guide rod (75).

6. The heating and shaping device for intelligent manufacturing according to claim 5, further comprising a feeding auxiliary mechanism (8), wherein the feeding auxiliary mechanism (8) comprises:

the transmission worm (82), the transmission worm (82) is installed on the L-shaped block (48) in a rotating mode;

the belt transmission assembly (81), the belt transmission assembly (81) is installed between the transmission worm (82) and the driving shaft (42);

the worm wheel (83), the worm wheel (83) is installed on the upper hopper (47) rotatably, it engages with drive worm (82);

and the fan blade stirring plate (84), and the fan blade stirring plate (84) is arranged on the worm wheel (83).

7. The heating and shaping device for intelligent manufacturing according to claim 6, further comprising a material receiving mechanism (9), wherein the material receiving mechanism (9) comprises:

the fixed shaft (92), the fixed shaft (92) is installed on one of the installation side plates (55) in a rotating mode;

the material receiving plate (91), the material receiving plate (91) is arranged on the fixed shaft (92);

the material receiving frame (93), the material receiving frame (93) is placed on the base (1).

8. The heating and shaping device for intelligent manufacturing according to claim 7, wherein the material of the material cutting plate (71) is iron.