CN116001186A

CN116001186A - Multi-station temperature control injection molding machine capable of achieving uniform and rapid cooling

Info

Publication number: CN116001186A
Application number: CN202310300963.2A
Authority: CN
Inventors: 杨小斌
Original assignee: Taizhou Municipal Front Injection Molding Co ltd
Current assignee: Taizhou Municipal Front Injection Molding Co ltd
Priority date: 2023-03-27
Filing date: 2023-03-27
Publication date: 2023-04-25
Anticipated expiration: 2043-03-27
Also published as: CN116001186B

Abstract

The invention discloses a multi-station temperature control injection molding machine capable of uniformly and rapidly cooling, which belongs to the technical field of temperature control injection molding machines, wherein raw materials are input into a lower die which is required to produce products through an injection gun, a first gear azimuth adjusting assembly is started, a storable mechanical arm assembly is used for adjusting a rotary telescopic frame assembly to be close to the lower die, an adjustable upper die assembly is matched with the lower die to mold, the rotary telescopic frame assembly is turned over again after molding to enable another group of adjustable upper die assemblies to be matched with another group of lower die to mold, so that the adjustable upper die assemblies roll on different lower dies in a rolling mode, the molded products are adsorbed and taken through a second gear azimuth adjusting assembly and an adjustable sucker assembly, and then the molded products are moved and placed on a conveyor belt assembly to be transmitted.

Description

Multi-station temperature control injection molding machine capable of achieving uniform and rapid cooling

Technical Field

The invention relates to a temperature control injection molding machine, in particular to a multi-station temperature control injection molding machine capable of being cooled uniformly and rapidly, and belongs to the technical field of temperature control injection molding machines.

Background

Injection molding machines, also known as injection molding machines or injection molding machines, are the primary molding equipment for producing plastic products of various shapes from thermoplastic or thermosetting plastics using plastic molding dies, which are capable of heating the plastic, applying high pressure to the molten plastic, causing it to be ejected and fill the die cavity.

The utility model discloses a take cooling device's injection molding machine like application number CN202110219350.7 among the prior art, including quick-witted case, support and cooler bin, the bottom inner wall fixed mounting of machine case has first motor, the output fixedly connected with gear shaft of first motor, the outer loop meshing of gear shaft is connected with the external gear, the outer loop transmission of external gear is connected with the conveyer belt, the last fixed surface of conveyer belt is connected with magnet sucking disc, magnet sucking disc's top is provided with the mould, the top fixedly connected with mould lid of mould, the bottom fixedly mounted of machine case has the hot-water pump, the top fixedly mounted of cooler bin has the blower box, the bottom fixedly connected with blower of blower box.

And in the prior art, as disclosed in application number CN201910936947.6, a multi-station temperature control injection molding machine and a frame mechanism, wherein the frame mechanism comprises a bottom plate, side frame plates, a fixed die holder and a movable die holder, the edge of the bottom plate is regular octagon, the number of the side frame plates is four, and the four side frame plates are vertically welded on the upper side panel of the bottom plate in a square array.

However, the temperature control injection molding machine in the prior art still has the problem of low processing efficiency:

the single injection gun needs to be rotated back and forth to carry out injection molding in the processing process, so that the injection molding efficiency is low, in addition, each group of injection guns needs to be designed with an upper die in the process of carrying out upper die pressing forming, so that the cost is high, no structural design for assisting in taking out and moving out the formed product is adopted, the problem of poor cooperation among working procedures and low efficiency is caused, and therefore the problem is solved by designing a multi-station temperature control injection molding machine capable of being cooled uniformly and rapidly.

Disclosure of Invention

The invention mainly aims to provide a multi-station temperature control injection molding machine capable of uniformly and rapidly cooling, raw materials are input into a lower die of a product to be produced through an injection gun, a first gear position adjusting component is started, a storable mechanical arm component is used for adjusting a rotary telescopic frame component to be close to the lower die, an adjustable upper die component is matched with the lower die to be molded, after the molding, the rotary telescopic frame component is turned over again to enable another group of adjustable upper die components to be matched with another group of lower die to be molded, therefore the adjustable upper die components roll on different lower dies in a rolling mode, the molded product is absorbed and taken by a second gear position adjusting component and an adjustable sucking disc component, then the molded product is movably placed in a conveyor belt component to be transmitted, and in the processing process, a gear transmission component is driven to suck cool air and is led into a hollow temperature guide disc to be rapidly molded by rotating, and when the inner rotating rod rotates, the bevel gear component is synchronously driven to move, and the bevel gear component is adjusted to move to output the product by the bevel gear component.

The aim of the invention can be achieved by adopting the following technical scheme:

the utility model provides a multi-station accuse temperature injection molding machine of even rapid cooling, includes the annular workbench, the equidistant lower mould that is equipped with in top of annular workbench is located the outside of annular workbench with the lower mould corresponds and is equipped with the injection gun, the inboard middle part department of annular workbench is equipped with down the fixed plate through the second L type side support frame, the interior middle part department of lower fixed plate is fixed with the cavity section of thick bamboo, the fixed plate is installed at the top of cavity section of thick bamboo, the inside of cavity section of thick bamboo is equipped with interior linkage bull stick through the bearing, be equipped with first gear position adjustment subassembly on the outer tip and the upper fixed plate of interior linkage bull stick, the outer middle part department of cavity section of thick bamboo is fixed with down the fixed plate, and the outside of lower fixed plate and cavity section of thick bamboo is equipped with second gear position adjustment subassembly to be equipped with adjustable sucking disc subassembly on this second gear position adjustment subassembly, the bottom of interior linkage bull stick is fixed on the fixed plate through the bearing, the top department of well fixed plate is fixed with the base, the top of base is equipped with first L type side support frame department, the first L type side support frame is equipped with interior linkage bull stick, the top end of rotation of platform is equipped with the first side support frame, the rotatable carrier is equipped with the angular adjustment subassembly through the top end of a rotary actuator, the top end of the rotatable carrier is equipped with the flexible subassembly, the flexible subassembly is equipped with the output end of flexible subassembly, the input of fan communicates there is the air conditioning storehouse, the output of fan communicates with the bottom of annular workstation subassembly through the air duct.

Preferably, the first gear azimuth adjusting assembly comprises a ninth gear, a sixth gear and a first driving motor, the first driving motor is installed at the outer bottom of the upper fixing plate, the output end of the first driving motor penetrates through the upper fixing plate to install the sixth gear, the ninth gear is installed at the top of the inner linkage rotating rod, and the mechanical arm assembly capable of being contained is arranged at the top of the ninth gear.

Preferably, the storable mechanical arm assembly comprises a first angle adjusting motor, a hinge seat, a first mechanical arm, a strip-shaped groove, a second angle adjusting motor and a second mechanical arm, wherein the hinge seat is installed at the top middle part of the ninth gear, the first angle adjusting motor is installed at the middle part of the outer side of the hinge seat, the first mechanical arm is installed through the hinge seat at the output end of the first angle adjusting motor, the strip-shaped groove is formed in the first mechanical arm, the second angle adjusting motor is installed at the outer top part of the first mechanical arm, the second mechanical arm is installed through the first mechanical arm at the output end of the second angle adjusting motor, and the rotary telescopic bracket assembly is installed at the outer end part of the second mechanical arm.

Preferably, the rotary expansion bracket assembly comprises a rotary rod, a first side electric expansion rod and an inner rotary motor, wherein the inner rotary motor is installed at the outer end part of the second mechanical arm, the rotary rod is installed at the output end of the inner rotary motor, the first side electric expansion rod is installed at the outer end part of the rotary rod, and the adjustable upper die assembly is installed at the outer end part of the first side electric expansion rod.

Preferably, the adjustable upper die assembly comprises an end U-shaped seat, a second angle adjusting motor, a rotating block, an outer buffer cylinder, an inner buffer cylinder, an upper die and a buffer spring, wherein the end U-shaped seat is arranged at the outer end part of the first side electric telescopic rod, the second angle adjusting motor is arranged at the outer end part of the end U-shaped seat, the rotating block is arranged at the output end of the second angle adjusting motor through the end U-shaped seat, the outer buffer cylinder is arranged at two sides of the bottom of the rotating block, the buffer spring is arranged at the inner top part of the outer buffer cylinder, the inner buffer cylinder is arranged at the bottom of the buffer spring, and the upper die is arranged at the bottom of the inner buffer cylinder.

Preferably, the second gear azimuth adjusting assembly comprises a second driving motor, a seventh gear and a first gear, the first gear is installed at the outer upper part of the hollow cylinder through a bearing, the second driving motor is installed at the outer bottom part of the lower fixing plate, the output end of the second driving motor penetrates through the lower fixing plate to be provided with the seventh gear, and the seventh gear is meshed with the first gear.

Preferably, the adjustable sucking disc subassembly includes second side electric telescopic handle, hangs down electric telescopic handle and sucking disc, the electric telescopic handle of second side is installed to the topside department of first gear, just the bottom department of the electric telescopic handle of second side installs the electric telescopic handle that hangs down, the sucking disc is installed to the output of hanging down electric telescopic handle.

Preferably, the annular workbench assembly comprises an annular workbench, a hollow heat-conducting disc, a first L-shaped side supporting frame and a lower die, wherein the first L-shaped side supporting frame is installed at the top edge of the base, the annular workbench is installed on the first L-shaped side supporting frame, the hollow heat-conducting disc is arranged at the bottom of the annular workbench, the lower die is fixed at the top of the annular workbench at equal intervals, and an injection gun is correspondingly arranged at the top of the annular workbench and the lower die.

Preferably, the conveyer belt subassembly includes conveyer belt, side fixed plate, first cylinder and second cylinder, the side fixed plate is installed at the top of base, is located the inboard one end of side fixed plate is equipped with first cylinder through the bearing, is located the inboard other end of side fixed plate is equipped with the second cylinder through the bearing, and the outside cover of this first cylinder and second cylinder is equipped with the conveyer belt.

Preferably, the bevel gear assembly comprises a third bevel gear, a second bevel gear, an edge support column, a horizontal connecting rod, a first bevel gear and a fourth bevel gear, wherein the third bevel gear is installed at the outer bottom of the inner linkage rotating rod, the second bevel gear is meshed with the outer side of the third bevel gear, the horizontal connecting rod is installed at the middle part of the outer end of the second bevel gear, the first bevel gear is installed at the other end of the horizontal connecting rod, the fourth bevel gear is meshed with the outer side of the first bevel gear, the middle part of one side of the fourth bevel gear is connected with the first roller through a bevel gear connecting rod penetrating through a side fixing plate, the edge support column is installed at the top of the middle fixing plate, and the horizontal connecting rod is installed at the edge support column through a bearing;

the gear transmission assembly comprises a fifth gear, a fourth gear and a hanging shaft, wherein the fifth gear is arranged on the outer side of the inner linkage rotating rod, the fourth gear is meshed with the outer side of the fifth gear, the hanging shaft is arranged at the middle bottom of the fourth gear, and a fan is arranged on the outer side of the hanging shaft.

The beneficial technical effects of the invention are as follows:

according to the multi-station temperature control injection molding machine capable of uniformly and rapidly cooling, raw materials are input into a lower die required to produce products through an injection gun, a first gear position adjusting component is started, a storable mechanical arm component is used for adjusting a rotary telescopic frame component to be close to the lower die, an adjustable upper die component is matched with the lower die to be molded, after molding, the rotary telescopic frame component is turned over again to enable another group of adjustable upper die components to be matched with another group of lower die to be molded, therefore the adjustable upper die components roll and prepare on different lower dies in a rolling mode, the molded products are adsorbed and taken through a second gear position adjusting component and an adjustable sucking disc component, then the products are moved and placed in a conveying belt component to be transmitted, in the process of processing, the rotation of an inner linkage rotating rod drives a gear transmission component to suck cool air and guide the cool air into a hollow temperature guide disc to enable the products to be rapidly molded, and when the inner rotating rod rotates, the bevel gear component is synchronously driven to move, and the bevel gear component is adjusted to move through the bevel gear component to convey the products to be output.

Drawings

Fig. 1 is a schematic view showing the overall first view perspective structure of a device of a preferred embodiment of a multi-station temperature-controlled injection molding machine capable of uniformly and rapidly cooling according to the present invention.

Fig. 2 is a schematic view showing the overall second perspective view of the apparatus of a preferred embodiment of a multi-station temperature-controlled injection molding machine with uniform cooling according to the present invention.

Fig. 3 is a schematic view showing the overall third perspective view of the apparatus of a preferred embodiment of a multi-station temperature-controlled injection molding machine with uniform cooling according to the present invention.

Fig. 4 is a schematic view showing the overall fourth perspective view of the apparatus of a preferred embodiment of a multi-station temperature-controlled injection molding machine with uniform cooling according to the present invention.

Fig. 5 is a schematic perspective view showing a first view of a mechanical arm assembly and a linkage assembly combination of a multi-station temperature-controlled injection molding machine with uniform cooling according to a preferred embodiment of the present invention.

Fig. 6 is a schematic perspective view showing a second view angle of a mechanical arm assembly and linkage assembly combination of a multi-station temperature-controlled injection molding machine with uniform cooling according to a preferred embodiment of the present invention.

Fig. 7 is an enlarged view of the structure at c in fig. 5 according to the present invention.

Fig. 8 is an enlarged view of the structure d in fig. 6 according to the present invention.

Fig. 9 is an enlarged view of the structure at b in fig. 5 according to the present invention.

Fig. 10 is an enlarged view of the structure at a in fig. 3 according to the present invention.

In the figure: the device comprises a 1-side fixing plate, a 2-conveyor belt, a 3-base, a 4-first L-shaped side supporting frame, a 5-middle fixing plate, a 6-side supporting column, a 7-hollow heat conducting disc, an 8-annular workbench, a 9-lower die, a 10-second L-shaped side supporting frame, an 11-upper fixing plate, a 12-lower fixing plate, a 13-second angle adjusting motor, a 14-first bevel gear, a 15-second bevel gear, a 16-third bevel gear, a 19-hollow cylinder, a 20-hinging seat, a 21-first mechanical arm, a 22-strip-shaped groove, a 23-second mechanical arm, a 24-rotating rod, a 25-first side electric telescopic rod, a 26-first angle adjusting motor, a 27-fan, a 28-vertical shaft, a 29-fourth gear, a 30-fifth gear, a 31-second side electric telescopic rod, a 32-vertical electric telescopic rod, a 33-sucking disc, a 34-end U-shaped seat, a 35-second angle adjusting motor, a 36-rotating block, a 37-outer buffer cylinder, a 38-inner buffer cylinder, a 39-upper die, a 40-sixth gear, a first gear, a 42-first bevel gear, a 42-fourth gear, a 48-fourth gear, a drive bevel gear and a 48-fourth gear, a 48-fourth driving bevel gear and a fourth gear.

Detailed Description

In order to make the technical solution of the present invention more clear and obvious to those skilled in the art, the present invention will be described in further detail with reference to examples and drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-10, the multi-station temperature control injection molding machine with uniform rapid cooling provided in this embodiment includes an annular workbench 8, a lower mold 9 is provided at the top of the annular workbench 8 at equal intervals, an injection molding gun is provided at the outer side of the annular workbench 8 corresponding to the lower mold 9, a lower fixing plate 12 is mounted at the middle part of the inner side of the annular workbench 8 via a second L-shaped side support frame 10, a hollow cylinder 19 is fixed at the inner middle part of the lower fixing plate 12, an upper fixing plate 11 is mounted at the top of the hollow cylinder 19, an inner linkage rotating rod 46 is mounted at the inner part of the hollow cylinder 19 via a bearing, a first gear position adjusting assembly is provided at the outer end of the inner linkage rotating rod 46 and the upper fixing plate 11, a lower fixing plate 12 is fixed at the outer middle part of the hollow cylinder 19, a second gear position adjusting assembly is provided at the outer side of the lower fixing plate 12 and the hollow cylinder 19, and an adjustable sucking disc assembly is provided at the second gear position adjusting assembly, the bottom of the inner linkage rotating rod 46 is fixed on the middle fixing plate 5 through a bearing, the base 3 is fixed at the outer bottom of the middle fixing plate 5, the first L-shaped side supporting frame 4 is installed at the top edge of the base 3 at equal angles, the annular workbench component is installed at the top end of the first L-shaped side supporting frame 4, the top of the first gear azimuth adjusting component is provided with a storable mechanical arm component, the output end of the storable mechanical arm component is provided with a rotary telescopic bracket component, the output end of the rotary telescopic bracket component is provided with an adjustable upper die component, the adjustable upper die component is matched with the annular workbench component, the top side of the base 3 is provided with a conveyor belt component, the outer side of the inner linkage rotating rod 46 drives the conveyor belt component through the bevel gear component, the outer side of the inner linkage rotating rod 46 drives the fan 27 through the gear transmission component, the input end of the fan 27 is communicated with a cold air bin, and the output end of the fan 27 is communicated with the bottom of the annular workbench assembly through an air guide pipe 48.

General principle of operation: the injection gun is used for inputting raw materials into the lower die 9 for producing products, the first gear position adjusting assembly is started, the accommodating mechanical arm assembly is used for adjusting the rotary telescopic frame assembly to be close to the lower die 9, the adjustable upper die assembly is matched with the lower die 9 to form, the rotary telescopic frame assembly is turned over again after forming to enable the other group of adjustable upper die assemblies to be matched with the other group of lower die 9 to form, the adjustable upper die assemblies roll and prepare on different lower dies 9 in a rolling mode, the formed products adsorb and take the products through the second gear position adjusting assembly and the adjustable sucking disc assembly, then the products are moved and placed on the conveyor belt assembly to be transmitted, in the processing process, the rotation of the inner linkage rotating rod 46 drives the gear transmission assembly to drive the fan 27 to suck cool air and guide the cool air into the hollow heat conducting disc 7 to enable the products to be formed rapidly, and when the inner linkage rotating rod 46 rotates, the bevel gear assembly is synchronously driven to move, and the bevel gear assembly is adjusted to move through the bevel gear assembly to output the bevel gear assembly.

In this embodiment, the first gear azimuth adjusting assembly includes a ninth gear 45, a sixth gear 40 and a first driving motor 41, the first driving motor 41 is installed at the outer bottom of the upper fixing plate 11, the sixth gear 40 is installed through the upper fixing plate 11 at the output end of the first driving motor 41, the ninth gear 45 is installed at the top of the inner linkage rotating rod 46, and a storable mechanical arm assembly is provided at the top of the ninth gear 45.

Local working principle: the sixth gear 40 is driven to move by starting the first driving motor 41, and the ninth gear 45 is driven to rotate by the sixth gear 40 and drives the inner linkage rotating rod 46 to rotate.

In this embodiment, the storable mechanical arm assembly includes a first angle adjustment motor 26, a hinge seat 20, a first mechanical arm 21, a strip-shaped groove 22, a second angle adjustment motor and a second mechanical arm 23, the hinge seat 20 is installed at the top middle part of the ninth gear 45, the first angle adjustment motor 26 is installed at the middle part of the outer side of the hinge seat 20, the first mechanical arm 21 is installed through the hinge seat 20 at the output end of the first angle adjustment motor 26, the strip-shaped groove 22 is formed in the first mechanical arm 21, the second angle adjustment motor is installed at the outer top of the first mechanical arm 21, the second mechanical arm 23 is installed through the first mechanical arm 21 at the output end of the second angle adjustment motor, and the rotary expansion bracket assembly is installed at the outer end of the second mechanical arm 23.

Local working principle: the first mechanical arm 21 is adjusted to be vertical through starting the first angle adjusting motor 26, the second mechanical arm 23 is adjusted to be vertical through the second angle adjusting motor, the rotary expansion bracket assembly is further adjusted, the strip-shaped groove 22 is formed, and the second mechanical arm 23 can be contained in the strip-shaped groove 22.

In the present embodiment, the rotating and telescoping rack assembly includes a rotating rod 24, a first side electric telescoping rod 25, and an inner rotating motor mounted at an outer end of the second mechanical arm 23, the rotating rod 24 mounted at an output end of the inner rotating motor, the first side electric telescoping rod 25 mounted at an outer end of the rotating rod 24, and the adjustable upper mold assembly mounted at an outer end of the first side electric telescoping rod 25.

Local working principle: the rotary rod 24 can be adjusted to rotate by starting the internal rotation motor, and the adjustable upper die assembly can be adjusted by starting the first side electric telescopic rod 25.

In this embodiment, the adjustable upper mold assembly includes an end U-shaped seat 34, a third angle adjusting motor 35, a rotating block 36, an outer buffer tube 37, an inner buffer tube 38, an upper mold 39, and a buffer spring, the end U-shaped seat 34 is installed at the outer end of the first side electric telescopic rod 25, the third angle adjusting motor 35 is installed at the outer end of the end U-shaped seat 34, the rotating block 36 is installed through the end U-shaped seat 34 at the output end of the third angle adjusting motor 35, the outer buffer tube 37 is installed at both sides of the bottom of the rotating block 36, the buffer spring is installed at the inner top of the outer buffer tube 37, the inner buffer tube 38 is installed at the bottom of the buffer spring, and the upper mold 39 is installed at the bottom of the inner buffer tube 38.

Local working principle: the third angle adjusting motor 35 is started to drive the rotating block 36 to rotate so as to be suitable for the upper die 39 to correspond to the lower die 9, and the functions of pressing and buffering are realized in the preparation process through the outer buffer cylinder 37, the inner buffer cylinder 38 and the buffer spring.

In the present embodiment, the second gear orientation adjusting assembly includes a second driving motor 43, a seventh gear 42 and a first gear 44, the first gear 44 is mounted at the outer upper portion of the hollow cylinder 19 through a bearing, the second driving motor 43 is mounted at the outer bottom portion of the lower fixing plate 12, the seventh gear 42 is mounted at the output end of the second driving motor 43 through the lower fixing plate 12, and the seventh gear 42 is engaged with the first gear 44.

Local working principle: the second driving motor 43 is started to drive the seventh gear 42, and the seventh gear 42 drives the first gear 44 to rotate so as to adjust the adjustable sucking disc assembly to horizontally rotate.

In this embodiment, the adjustable suction cup assembly includes a second side electric telescopic rod 31, a vertical electric telescopic rod 32 and a suction cup 33, the second side electric telescopic rod 31 is installed at the top edge of the first gear 44, the vertical electric telescopic rod 32 is installed at the bottom end of the second side electric telescopic rod 31, and the suction cup 33 is installed at the output end of the vertical electric telescopic rod 32.

Local working principle: the second side electric telescopic rod 31 and the vertical electric telescopic rod 32 are started to adjust the movement of the sucking disc 33 and adsorb and take the product in the lower die 9.

In this embodiment, the annular table subassembly includes annular table 8, cavity heat-conducting plate 7, first L type side support frame 4 and bed die 9, and first L type side support frame 4 is installed to the topside department of base 3, and installs annular table 8 on the first L type side support frame 4, and annular table 8's bottom is equipped with cavity heat-conducting plate 7, and annular table 8's top equidistant bed die 9 that is fixed with, and corresponds with bed die 9 at annular table 8's top and bed die 9 and be equipped with the rifle of moulding plastics.

Local working principle: the design of the structure of the annular workbench 8 can conveniently and rapidly carry out rotary work, so that the working efficiency is improved, and the hollow heat-conducting disc 7 is also involved in realizing uniform cooling treatment.

In this embodiment, the conveyor belt assembly includes a conveyor belt 2, a side fixing plate 1, a first roller and a second roller, the side fixing plate 1 is mounted on top of the base 3, the first roller is disposed at one end of the inner side of the side fixing plate 1 through a bearing, the second roller is disposed at the other end of the inner side of the side fixing plate 1 through a bearing, and the conveyor belt 2 is sleeved outside the first roller and the second roller.

Local working principle: the rotation of the first roller and the second roller drives the conveyor belt 2 to move so as to realize the transmission of workpieces.

In the present embodiment, the bevel gear assembly includes a third bevel gear 16, a second bevel gear 15, an edge support post 6, a horizontal connecting rod 13, a first bevel gear 14 and a fourth bevel gear 47, the third bevel gear 16 is installed at the outer bottom of the inner link rotating rod 46, the second bevel gear 15 is engaged with the outer side of the third bevel gear 16, the horizontal connecting rod 13 is installed at the middle of the outer end of the second bevel gear 15, the first bevel gear 14 is installed at the other end of the horizontal connecting rod 13, the fourth bevel gear 47 is engaged with the outer side of the first bevel gear 14, the middle of one side of the fourth bevel gear 47 is connected with the first drum through a bevel gear connecting rod penetrating through the side fixing plate 1, the edge support post 6 is installed at the top of the middle fixing plate 5, and the horizontal connecting rod 13 is installed through a bearing;

local working principle: the second bevel gear 15 is driven to move through the movement of the third bevel gear 16, the horizontal connecting rod 13 is driven to move through the second bevel gear 15, the first bevel gear 14 is driven to move through the horizontal connecting rod 13, the fourth bevel gear 47 is driven to move through the first bevel gear 14, and the first roller is driven to move through the fourth bevel gear 47.

The gear transmission assembly comprises a fifth gear 30, a fourth gear 29 and a vertical shaft 28, the fifth gear 30 is arranged on the outer side of the inner linkage rotating rod 46, the fourth gear 29 is meshed on the outer side of the fifth gear 30, the vertical shaft 28 is arranged at the middle bottom of the fourth gear 29, and a fan 27 is arranged on the outer side of the vertical shaft 28.

Local working principle: the fourth gear 29 is driven by the fifth gear 30, and the fan 27 is driven by the fourth gear 29 to suck cool air into the hollow temperature-guiding disc 7.

The above is merely a further embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present invention within the scope of the present invention disclosed in the present invention.

Claims

1. A multi-station temperature control injection molding machine capable of being cooled uniformly and rapidly is characterized in that: the injection molding machine comprises an annular workbench (8), wherein a lower die (9) is arranged at the top of the annular workbench (8) at equal intervals, an injection molding gun is correspondingly arranged on the outer side of the annular workbench (8) and the lower die (9), a lower fixing plate (12) is arranged at the middle part of the inner side of the annular workbench (8) through a second L-shaped side supporting frame (10), a hollow cylinder (19) is fixed at the inner middle part of the lower fixing plate (12), an upper fixing plate (11) is arranged at the top of the hollow cylinder (19), an inner linkage rotating rod (46) is arranged in the hollow cylinder (19) through a bearing, a first gear position adjusting component is arranged on the outer end part of the inner linkage rotating rod (46) and the upper fixing plate (11), a lower fixing plate (12) is fixed at the outer middle part of the hollow cylinder (19), an adjustable sucking disc component is arranged on the second gear position adjusting component, an inner linkage rotating rod (46) is fixed at the top edge of the upper side of the annular supporting frame (4) through a bearing, an equiangular position of the inner side supporting frame (4) is fixed at the top edge of the annular supporting frame (4), the top of first gear position adjustment subassembly is equipped with can accomodate the arm module, and rotatory expansion bracket subassembly is installed to the output that should accomodate the arm module to be located the output of this rotatory expansion bracket subassembly and install adjustable mould subassembly, and adjustable mould subassembly with annular workstation subassembly mutually support, the top lateral part department of base (3) is equipped with the conveyer belt subassembly, the outside of interior linkage bull stick (46) is passed through bevel gear subassembly drive the conveyer belt subassembly, the outside of interior linkage bull stick (46) is passed through gear drive subassembly drive and is had fan (27), the input intercommunication of fan (27) has the air conditioning storehouse, the output of fan (27) is through the bottom intercommunication of air duct (48) with annular workstation subassembly.

2. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 1, wherein: the first gear azimuth adjusting assembly comprises a ninth gear (45), a sixth gear (40) and a first driving motor (41), the first driving motor (41) is installed at the outer bottom of the upper fixing plate (11), the output end of the first driving motor (41) penetrates through the upper fixing plate (11) to be provided with the sixth gear (40), the top of the inner linkage rotating rod (46) is provided with the ninth gear (45), and the top of the ninth gear (45) is provided with a storable mechanical arm assembly.

3. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 2, wherein: can accomodate arm assembly and include first angle accommodate motor (26), articulated seat (20), first arm (21), strip type groove (22), second angle accommodate motor and second arm (23), articulated seat (20) are installed in top middle part department of ninth gear (45), just first angle accommodate motor (26) are installed in outside middle part department of articulated seat (20), first arm (21) are installed in the output of first angle accommodate motor (26) run through articulated seat (20), strip type groove (22) have been seted up on first arm (21), second angle accommodate motor is installed in the outer top department of first arm (21), and the output of this second angle accommodate motor runs through first arm (21) are installed second arm (23), rotatory expansion bracket subassembly is installed in the outer tip department of second arm (23).

4. A multi-station temperature-controlled injection molding machine capable of being cooled uniformly and rapidly according to claim 3, wherein: the rotary telescopic frame assembly comprises a rotary rod (24), a first side electric telescopic rod (25) and an inner rotary motor, wherein the inner rotary motor is installed at the outer end part of the second mechanical arm (23), the rotary rod (24) is installed at the output end of the inner rotary motor, the first side electric telescopic rod (25) is installed at the outer end part of the rotary rod (24), and the adjustable upper die assembly is installed at the outer end part of the first side electric telescopic rod (25).

5. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 4, wherein: the adjustable upper die assembly comprises an end U-shaped seat (34), a third angle adjusting motor (35), rotating blocks (36), outer buffer cylinders (37), inner buffer cylinders (38), an upper die (39) and buffer springs, wherein the end U-shaped seat (34) is installed at the outer end part of the first side electric telescopic rod (25), the third angle adjusting motor (35) is installed at the outer end part of the end U-shaped seat (34), the rotating blocks (36) are installed at the output ends of the third angle adjusting motor (35) penetrating through the end U-shaped seat (34), the outer buffer cylinders (37) are installed at two sides of the bottom of each rotating block (36), the buffer springs are installed at the inner top part of each outer buffer cylinder (37), the inner buffer cylinders (38) are installed at the bottom of each buffer spring, and the upper die (39) is installed at the bottom of each inner buffer cylinder (38).

6. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 5, wherein: the second gear azimuth adjusting assembly comprises a second driving motor (43), a seventh gear (42) and a first gear (44), the first gear (44) is installed at the outer upper portion of the hollow cylinder (19) through a bearing, the second driving motor (43) is installed at the outer bottom of the lower fixing plate (12), the output end of the second driving motor (43) penetrates through the lower fixing plate (12) to install the seventh gear (42), and the seventh gear (42) is meshed with the first gear (44).

7. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 6, wherein: the adjustable sucking disc subassembly includes second side electric telescopic handle (31), hangs down electric telescopic handle (32) and sucking disc (33), second side electric telescopic handle (31) are installed in the topside department of first gear (44), just the bottom department of second side electric telescopic handle (31) installs and hangs down electric telescopic handle (32), hang down electric telescopic handle (32) output and install sucking disc (33).

8. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 7, wherein: the annular workbench assembly comprises an annular workbench (8), a hollow heat-conducting disc (7), a first L-shaped side supporting frame (4) and a lower die (9), wherein the first L-shaped side supporting frame (4) is installed at the top edge of the base (3), the annular workbench (8) is installed on the first L-shaped side supporting frame (4), the hollow heat-conducting disc (7) is arranged at the bottom of the annular workbench (8), the lower die (9) is fixed at the top of the annular workbench (8) at equal intervals, and an injection gun is arranged at the top of the annular workbench (8) corresponding to the lower die (9).

9. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 8, wherein: the conveyor belt assembly comprises a conveyor belt (2), a side fixing plate (1), a first roller and a second roller, wherein the side fixing plate (1) is arranged at the top of the base (3), the first roller is arranged at one end of the inner side of the side fixing plate (1) through a bearing, the second roller is arranged at the other end of the inner side of the side fixing plate (1) through a bearing, and the conveyor belt (2) is sleeved outside the first roller and the second roller.

10. The multi-station temperature-control injection molding machine capable of being cooled uniformly and rapidly according to claim 9, wherein: the bevel gear assembly comprises a third bevel gear (16), a second bevel gear (15), an edge support column (6), a horizontal connecting rod (13), a first bevel gear (14) and a fourth bevel gear (47), wherein the third bevel gear (16) is installed at the outer bottom of the inner linkage rotating rod (46), the second bevel gear (15) is meshed with the outer side of the third bevel gear (16), the horizontal connecting rod (13) is installed at the middle part of the outer end of the second bevel gear (15), the first bevel gear (14) is installed at the other end of the horizontal connecting rod (13), the fourth bevel gear (47) is meshed with the outer side of the first bevel gear (14), the middle part of one side of the fourth bevel gear (47) is connected with the first roller through a bevel gear connecting rod penetrating through a side fixing plate (1), the edge support column (6) is installed at the top of the middle fixing plate (5), and the horizontal connecting rod (13) is installed at the edge support column (6) through a bearing;

the gear transmission assembly comprises a fifth gear (30), a fourth gear (29) and a hanging shaft (28), the fifth gear (30) is arranged on the outer side of the inner linkage rotating rod (46), the fourth gear (29) is meshed on the outer side of the fifth gear (30), the hanging shaft (28) is arranged at the middle bottom of the fourth gear (29), and a fan (27) is arranged on the outer side of the hanging shaft (28).