阅读说明：本技术 一种模塑成型产品的自动化注塑系统 (Automatic injection molding system for molded products ) 是由 罗金城 于 2021-08-31 设计创作，主要内容包括：本发明公开了一种模塑成型产品的自动化注塑系统,包括架台和安装在所述架台上的注塑机,所述注塑机包括设置在所述架台尾端上方的挤料头,且所述挤料头的一侧设置有安装在所述架台上的防堵装置,并且所述防堵装置上设置有驱动装置；所述防堵装置包括固定在所述架台上的龙门架,所述龙门架上铰接有翻转结构,所述翻转结构的一侧设置有用于套装在所述挤料头表面的清理部；其中,所述防堵装置安装在所述翻转结构上,所述驱动装置的输出端与所述清理部连接,且所述驱动装置用于使所述清理部套在所述挤料头上转动；本发明不仅实现了对挤料头内外的余料清理,同时实现了表面润滑防止粘粘余料的功能,进而有效提高产品质量。(The invention discloses an automatic injection molding system of a molded product, which comprises a stand and an injection molding machine arranged on the stand, wherein the injection molding machine comprises a material extruding head arranged above the tail end of the stand, an anti-blocking device arranged on the stand is arranged on one side of the material extruding head, and a driving device is arranged on the anti-blocking device; the anti-blocking device comprises a portal frame fixed on the stand, a turnover structure is hinged to the portal frame, and a cleaning part sleeved on the surface of the extruding head is arranged on one side of the turnover structure; the anti-blocking device is arranged on the overturning structure, the output end of the driving device is connected with the cleaning part, and the driving device is used for enabling the cleaning part to be sleeved on the extruding head to rotate; the invention not only realizes the cleaning of the excess materials inside and outside the extruding head, but also realizes the function of surface lubrication to prevent the excess materials from being adhered, thereby effectively improving the product quality.)

1. An automatic injection molding system of a molded product is characterized by comprising a stand (1), an injection molding machine (2) and an anti-blocking device (4) which are arranged on the stand (1), wherein a driving device (3) is arranged on the anti-blocking device (4);

the injection molding machine (2) comprises an L-shaped frame (21) and a bottom support (22) which are fixedly arranged on the stand (1), a feeding pipeline (23) is fixedly arranged on the bottom support (22), a spiral pipe column for conveying materials is arranged in the feeding pipeline (23), the spiral pipe column is driven by a driving mechanism (24) which is fixedly arranged on the L-shaped frame (21), a material receiving inlet (25) which is externally connected with a feeding funnel is arranged on the feeding pipeline (23), and an extruding head (26) is arranged at the outlet end of the feeding pipeline (23) in a sleeved mode;

prevent stifled device (4) including fixing portal frame (41) on stand (1), it has flip structure (42) to articulate on portal frame (41), one side of flip structure (42) is provided with and is used for the suit in clearance portion (43) on crowded stub bar (26) surface, the output of drive arrangement (3) with clearance portion (43) connection drive clearance portion (43) cover rotate on crowded stub bar (26).

2. An automated injection molding system for molded products according to claim 1, wherein a multi-stage damping mechanism (27) is provided at the junction of the feed pipe (23) and the shoe (22), the helical string has a smaller length than the feed pipe, an extrusion feed section (28) is formed at the outlet end of the feed pipe (23), and an aperture tightening mechanism (29) is provided at the extrusion feed section (28).

3. An automated injection molding system for molded products according to claim 1, wherein the cleaning part (43) comprises a drum (431) coaxially disposed with the output shaft of the driving device (3) and fixedly installed at the output end of the driving device (3), and a scraping assembly (432) for surface contact with the extrusion head (26) is disposed inside the drum (431), a lubricating assembly (433) is disposed inside the drum (431) at a position opposite to the scraping assembly (432), an annular cylinder connected with the output shaft of the driving device (3) is disposed at the center of the drum (431), and a dredging assembly (434) for cleaning the extrusion head (26) is installed on the annular cylinder through an extension ring.

4. The automated injection molding system of a molded product according to claim 3, wherein the scraping assembly (432) comprises a fixed outer ring (4321) connected with the rotary drum (431), an extrusion inner ring (4322) is arranged inside the fixed outer ring (4321), and a plurality of silica gel scrapers (4323) are vertically fixed at the central position of the extrusion inner ring (4322).

5. An automated injection molding system for molded products according to claim 4, wherein the fixed outer ring (4321) is mounted at the top end inside the rotary drum (431), and the outer contour of the extruded inner ring (4322) is in a truncated cone shape with two large ends and a small middle.

6. An automated injection molding system for molded products according to claim 3, wherein the lubricating assembly (433) comprises a positioning ring (4331), and the positioning ring (4331) is internally provided with a plurality of oil supply mechanisms (4332) for telescopically extruding the outer wall of the extrusion head (26).

7. The automatic injection molding system of a molded product according to claim 6, wherein the oil supply mechanism (4332) comprises an oil storage ring (43321) installed inside the rotary drum (431), and a plurality of limiting holes are radially arranged inside the oil storage ring (43321), and a ball is clamped inside each limiting hole.

8. The automated injection molding system of claim 7, wherein the hole defining cavity has a smaller diameter at both ends and a middle diameter, the diameter of the middle diameter of the hole defining cavity is larger than the diameter of the ball, and the diameter of the ball is larger than the diameter of the hole defining cavity at both ends.

9. The automatic injection molding system of a molded product according to claim 8, wherein more than one layer of sponge clamping plates (43323) are fixed inside the oil storage ring (43321), two pressing plates (43324) are movably arranged on one side of each sponge clamping plate (43323), oil leakage holes (43325) are uniformly formed in the surface of each pressing plate (43324), return springs are installed between every two adjacent pressing plates (43324) at equal intervals, a supporting table is fixed on one side of each pressing plate (43324), and the other end of each supporting table is fixedly connected with the ball.

10. The automated injection molding system of a molded product according to claim 3, wherein the dredging assembly (434) comprises a thimble (4341), and arc-shaped barbs (4342) are uniformly fixed on the surface of the thimble (4341), the radius of the thimble (4341) is smaller than that of the inner hole of the extrusion head (26), and the arc-shaped barbs (4342) are obliquely arranged on the surface of the thimble (4341) upwards.

Technical Field

The invention relates to the technical field of injection molding, in particular to an automatic injection molding system for a molded product.

Background

Injection molding is a method for producing and molding industrial products, and the products generally adopt rubber injection molding and plastic injection molding, and the injection molding can also be divided into injection molding and die casting; an injection molding machine is a main molding device for making thermoplastic plastics or thermosetting materials into plastic products with various shapes by using a plastic molding die, and the injection molding is realized by an injection molding machine and the die.

In traditional injection moulding technique, the product that needs thermoplastic moulding generally need melt it in appointed container, in the mould of filling certain shape through guiding device, does not do the injeciton to the use kind of moulding plastics and mould in this process, but can lead to its operation process comparatively loaded down with trivial details, because moulding plastics and mould can not match, makes whole in-process comparatively time-consuming.

In order to solve the technical problem, in the prior art, the efficiency is enhanced by the integrated automatic matching of injection molding and forming, but in practice, the extrusion head needs to extend to a certain depth inside a specified shaping mold during feeding, and is withdrawn after the material inside the mold is filled, so that part of the residual material can be remained on the surface of the extrusion head in the process, a certain time interval exists during the feeding process when the next mold is assembled, the residual material remained on the surface of the extrusion head can be solidified, in addition, the residual material remained on the port of the extrusion head can be solidified along with the time, and further when the feeding of the next mold is started, the residual material solidified on the surface can extend into the mold to cause the internal unevenness of the material loading, the residual material solidified inside causes the occurrence of the condition of material breakage, and further the output quality of the next product is seriously influenced.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides an automatic injection molding system for a molded product, which can effectively solve the problem of poor quality of the next product caused by the existence of excess materials on the surface and inside of a material extruding head in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an automatic injection molding system of a molded product comprises a stand, an injection molding machine and an anti-blocking device, wherein the injection molding machine and the anti-blocking device are arranged on the stand, and a driving device is arranged on the anti-blocking device;

the injection molding machine comprises an L-shaped frame and a bottom support which are fixedly arranged on the stand platform, a feeding pipeline is fixedly arranged on the bottom support, a spiral pipe column for conveying materials is arranged in the feeding pipeline, the spiral pipe column is driven by a driving mechanism fixedly arranged on the L-shaped frame, a material receiving inlet externally connected with a feeding funnel is arranged on the feeding pipeline, and an extruding head is arranged at the outlet end of the feeding pipeline in a sleeved mode;

the anti-blocking device comprises a portal frame fixed on the stand, an overturning structure is hinged to the portal frame, a cleaning part used for being sleeved on the surface of the extruding head is arranged on one side of the overturning structure, and the output end of the driving device is connected with the cleaning part to drive the cleaning part to be sleeved on the extruding head to rotate.

Optionally, a multi-stage attenuation mechanism is arranged at the joint of the feeding pipeline and the bottom support, the length of the spiral pipe column is smaller than that of the feeding pipeline, an extrusion feeding section is formed at the outlet end of the feeding pipeline, and an aperture tightening mechanism is arranged on the extrusion feeding section.

Optionally, the cleaning part comprises a rotating drum which is coaxially arranged with the output shaft of the driving device and is fixedly installed at the output end of the driving device, a scraping component which is used for being in surface contact with the extrusion head is arranged inside the rotating drum, a lubricating component is arranged in the rotating drum at a position opposite to the scraping component, an annular drum which is connected with the output shaft of the driving device is arranged at the center of the rotating drum, and a dredging component which is used for cleaning the extrusion head is installed on the annular drum through an extending ring.

Optionally, the scraping assembly comprises a fixed outer ring connected with the rotary drum, an extrusion inner ring is arranged inside the fixed outer ring, and a plurality of silica gel scraping plates are vertically fixed at the center of the extrusion inner ring.

Optionally, the fixed outer ring is mounted at the top end inside the rotary drum, and the outer contour of the extrusion inner ring is in a truncated cone shape with two large ends and a small middle.

Optionally, the lubricating assembly comprises a positioning ring, and a plurality of oil supplementing mechanisms for stretching and extruding the outer wall of the extruding head are arranged inside the positioning ring.

Optionally, the oil supplementing mechanism includes an oil storage ring installed inside the rotary drum, a plurality of limiting holes are radially arranged inside the oil storage ring, and a ball is clamped inside each limiting hole.

Optionally, the limiting hole is a cavity with two small end apertures and a middle aperture, the diameter of the middle aperture of the limiting hole is larger than that of the ball, and the diameter of the ball is larger than that of the two end apertures of the limiting hole.

Optionally, more than one layer of sponge clamping plates are fixed inside the oil storage ring, two pressing plates are movably arranged on one side of each sponge clamping plate, oil leakage holes are uniformly formed in the surfaces of the pressing plates, return springs are installed between every two adjacent pressing plates at equal intervals, a supporting table is fixed on one side of one pressing plate, and the other end of the supporting table is fixedly connected with the balls.

Optionally, the mediation subassembly includes the thimble, just thimble surface evenly is fixed with the arc barb, the radius of thimble is less than the radius in crowded stub bar inside hole, the arc barb sets up tilt up the surface of thimble.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the rotary drum capable of overturning is arranged at the position corresponding to the extrusion head, so that after injection molding of a mold is finished, the rotary drum is sleeved on the extrusion head, excess materials on the surface of the extrusion head are removed under the action of the extrusion inner ring and the silica gel scraper, the rotary drum extends into the extrusion head through the ejector pin, the arc-shaped barbs clean the excess materials in the bore of the end part of the extrusion head when rotating along with the rotary drum, and finally, lubricating oil in the sponge clamping plate is coated on the outer surface of the extrusion head through extrusion and contact with the balls, so that the cleaning of the excess materials inside and outside the extrusion head is realized, the function of preventing the adhesion of the excess materials by surface lubrication is realized, and the product quality is effectively improved.

Drawings

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

FIG. 2 is a schematic perspective view of the anti-clogging device of the present invention;

FIG. 3 is a schematic view of the internal structure of the drum of the present invention;

fig. 4 is a schematic view of the internal structure of the lubricating assembly of the present invention.

Reference numbers in the figures:

1. a stand; 2. an injection molding machine; 3. a drive device; 4. an anti-blocking device;

21. an L-shaped frame; 22. a bottom support; 23. a feed line; 24. a drive mechanism; 25. a material receiving inlet; 26. extruding a stub bar; 27. a multi-stage attenuation mechanism; 28. a material conveying section for extrusion; 29. an aperture tightening mechanism;

41. a gantry; 42. a turning structure; 43. a cleaning part;

431. a rotating drum; 432. a scraping assembly; 433. a lubrication assembly; 434. a dredging component;

4321. fixing the outer ring; 4322. extruding the inner ring; 4323. a silica gel scraper plate;

4331. a positioning ring; 4332. an oil supplementing mechanism;

4341. a thimble; 4342. an arc-shaped barb;

43321. an oil storage ring; 43323. a sponge splint; 43324. pressing a plate; 43325. an oil leak hole; .

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, the present invention provides an automatic injection molding system for a molded product, which includes a stand 1, an injection molding machine 2 and an anti-blocking device 4 mounted on the stand 1, and a driving device 3 mounted on the anti-blocking device 4.

Prevent stifled device 4 including fixing portal frame 41 on the platform 1, it has flip structure 42 to articulate on the portal frame 41, one side of flip structure 42 is provided with and is used for the suit in crowded stub bar 26 surperficial clearance portion 43, drive arrangement 3's output with clearance portion 43 connects the drive clearance portion 43 cover rotates on crowded stub bar 26.

Specifically, in the use, when needs feed, make clearance portion 43 wholly be on a parallel with crowded stub bar 26 through stirring flip structure 42, after the feed, stir flip structure 42 once more and make clearance portion 43 cover on crowded stub bar 26, drive clearance portion 43 through drive arrangement 3 and rotate, realize the cleaning action to crowded stub bar 26.

The injection molding machine 2 comprises an L-shaped frame 21 and a bottom support 22 which are fixedly installed on the stand 1, a feeding pipeline 23 is fixedly installed on the bottom support 22, a spiral pipe column used for conveying materials is arranged in the feeding pipeline 23 and is driven by a driving mechanism 24 fixedly installed on the L-shaped frame 21, a material receiving inlet 25 of an external feeding funnel is arranged on the feeding pipeline 23, and an extruding head 26 is installed at the outlet end of the feeding pipeline 23 in a sleeving mode.

In this embodiment, the feeding pipe 23 is internally provided with a spiral pipe column capable of freely rotating to realize spiral conveying of materials, and the materials in the feeding pipe 23 can be pushed due to the propelling action of the spiral pipe column in the conveying process, so that the stress is uniform.

Further, the length of the spiral pipe column is smaller than that of the feeding pipeline, and an extrusion feeding section 28 is formed at the outlet end of the feeding pipeline 23, wherein the extrusion head 26 is installed at the outlet end of the extrusion feeding section 28, the front section of the extrusion feeding section is driven in a spiral mode in the feeding pipeline 23, pressure is applied in the whole conveying process in the driving process, so that the materials can be uniformly conveyed, and no force is applied to the rear section of the extrusion feeding pipeline due to the fact that no spiral pipe column applies pressure, so that no force can be applied to convey the materials only through the extrusion action among the materials, and therefore, force can be accumulated in the discharging process, and the discharging process is more compact.

It should be noted that the auger string is driven by the driving mechanism 24, and the driving mechanism 24 may generate vibration during driving, and the vibration may affect the conveying continuity and tightness of the material in the feeding pipe 23.

Therefore, a multi-stage damping mechanism 27 is arranged at the connection part of the feeding pipeline 23 and the bottom support 22, and an aperture tightening mechanism 29 is arranged on the extrusion feeding section 28. Wherein:

the multi-stage damping mechanism 27 may be a multi-stage damping structure, such as an elastic pad or a spring, in this embodiment, the multi-stage damping mechanism 27 damps the axial vibration along the feeding pipe 23, and cannot damp the longitudinal vibration perpendicular to the feeding pipe 23, and the longitudinal vibration is limited by the L-shaped frame 21 and the bottom bracket 22, so that the vibration has a small influence on the material transportation. In addition, the transverse oscillations are also due to the discharge accuracy of the extrusion head 26, so that the oscillation amplitude must be effectively eliminated.

The aperture tightening mechanism 29 in the present invention may be an external structure, or may be arranged based on the feeding pipe 23, and its main function is to change the inner diameter of the feeding pipe 23, so that the inner diameter of the feeding pipe is reduced, and therefore, in the process of conveying, since the pushing pressure is not changed, when the inner diameter is suddenly reduced, the extrusion materials are forced to be extruded together, thereby improving the tightness of the extrusion materials.

The cleaning part 43 comprises a rotary drum 431 which is coaxially arranged with the output shaft of the driving device 3 and is fixedly arranged at the output end of the driving device 3, a scraping component 432 which is used for contacting with the surface of the extrusion head 26 is arranged in the rotary drum 431, a lubricating component 433 is arranged in the rotary drum 431 at a position opposite to the scraping component 432, an annular drum which is connected with the output shaft of the driving device 3 is arranged at the center of the rotary drum 431, and a dredging component 434 which is used for cleaning the extrusion head 26 is arranged on the annular drum through an extending ring.

It should be further noted that, when the rotary drum 431 is sleeved on the material extruding head 26 to rotate, the scraping component 432 is firstly in surface contact with the material extruding head 26, and can push the excess material on the surface of the material extruding head to the outside of the rotary drum 431, in addition, the dredging component 434 can extend to the inside of the material extruding head 26 to align with the residual material on the inner end part to clean, and in the rotating process of the rotary drum 431, the lubricating component 433 can keep the surface of the material extruding head 26 smooth, so that the possibility that the surface is adhered with the excess material is reduced, further, not only the excess material inside and outside the material extruding head 26 is cleaned, but also the function of preventing the adhesion of the excess material by surface lubrication is realized, and further, the product quality is effectively improved.

The scraping assembly 432 comprises a fixed outer ring 4321 connected with the rotary drum 431, an extrusion inner ring 4322 is arranged inside the fixed outer ring 4321, and a plurality of silica gel scraping plates 4323 are vertically fixed at the center position of the extrusion inner ring 4322.

The fixed outer ring 4321 is mounted at the top end inside the rotary cylinder 431, and the outer contour of the pressing inner ring 4322 is in a truncated cone shape with two large ends and a small middle.

In the scraping process, the inner extrusion ring 4322 and the extrusion head 26 are in contact with each other, and meanwhile, due to the fact that the caliber of two ends of the inner extrusion ring 4322 is small, the extrusion force between the two ends and the extrusion head 26 is larger, most of excess materials can be pushed to the outside of the rotary drum 431, meanwhile, in the rotating process of the rotary drum 431, the silica gel scraper 4323 can be directly attached to the surface of the extrusion head 26 to generate friction to clean the other part of the excess materials to an inner cavity in the middle of the inner extrusion ring 4322, and the excess materials are poured out after the rotary drum 431 is pulled out after the cleaning is finished, so that the structure can thoroughly clean the outside of the extrusion head 26.

The lubricating assembly 433 comprises a positioning ring 4331, and a plurality of oil supplementing mechanisms 4332 for telescopically extruding the outer wall of the extrusion head 26 are arranged in the positioning ring 4331.

The oil supplementing mechanism 4332 comprises an oil storage ring 43321 installed inside the rotary drum 431, a plurality of limiting holes are radially arranged inside the oil storage ring 43321, and a ball is clamped inside each limiting hole.

The diameter of the middle aperture of the limiting hole is larger than that of the ball, and the diameter of the ball is larger than that of the two end apertures of the limiting hole; more than one layer of sponge clamping plates 43323 are fixed inside the oil storage ring 43321, two pressing plates 43324 are movably arranged on one side of each sponge clamping plate 43323, oil leakage holes 43325 are uniformly formed in the surface of each pressing plate 43324, return springs are arranged between every two adjacent pressing plates 43324 at equal intervals, a supporting table is fixed on one side of each pressing plate 43324, and the other end of each supporting table is fixedly connected with the balls.

Through the rotation of the rotary drum 431, the material extruding head 26 is continuously contacted with the balls and generates extrusion, the extrusion force pushes the balls to move inwards, so that the support table pushes the pressing plate 43324 and extrudes the sponge clamping plate 43323, the sponge clamping plate 43323 adsorbs lubricating oil, the lubricating oil flows out due to the extrusion and acts on the balls through the oil leakage holes 43325 and the limiting holes, the lubricating oil is smeared on the surface of the lubricating oil in the contact process of the material extruding head 26 and the material extruding head 26, and the sticking amount is reduced when the lubricating oil is contacted with the remainder again.

Dredge subassembly 434 includes thimble 4341, just thimble 4341 surface evenly is fixed with arc barb 4342, and thimble 4341's radius is less than the radius in crowded stub bar 26 inner bore, the setting of arc barb 4342 tilt up is in thimble 4341's surface.

After the rotary drum 431 is sleeved on the extrusion head 26, the end of the extrusion head 26 is sleeved on the thimble 4341, and with the rotation of the rotary drum 431, the arc-shaped barbs 4342 inclined upwards clean the excess material inside the extrusion head 26.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.