CN218615333U - MPP electric power pipe extrusion material feedway - Google Patents

Abstract

The utility model relates to a MPP electric power pipe extrusion material feedway, including the organism that is used for the raw materials feed, the installation component, it is close to organism discharge end one side and sets up, supporting component, it sets up on the organism, and be located the installation component top, the guide subassembly, it is including setting up the feed portion on the installation component, the feed portion can be followed the supporting component and slided, the guide subassembly is still including setting up the feed back portion between installation component and feed portion, the feed back portion can be followed the supporting component and slided, feed back portion discharge gate is located the organism top, cooperation through feed back portion and supporting component, make the installation component promote, the position that can carry out feed portion and feed back portion is changed, the organism discharge's of organism discharge opening is accepted in the correspondence, send back the organism again to the raw materials, realize that discharge's raw materials flows back to the hopper before the screw conveyer standby in, the raw materials are deposited in the rifle head of moulding plastics, both avoided piling up the condition of leaking, the possibility of feeder hopper jam has been reduced again.

Description

MPP electric power pipe extrusion material feedway

Technical Field

The utility model relates to a tubular product injection moulding field, concretely relates to MPP electric power pipe extrusion material feedway.

Background

MPP electric power pipe generally adopts the pure raw materials production of modified polypropylene to form, is the molten condition through injection molding machine with the raw materials heating, injects the intracavity shaping into afterwards, and MPP electric power pipe injection moulding is the course of working that lasts not to break off, and the fashioned MPP electric power pipe makes customization length tubular product through cutting device, and conventional injection molding machine's feeder hopper sets up on the rifle head of moulding plastics, is in the high-order setting, generally adopts screw conveyer to reinforced in the feeder hopper.

At present, the screw conveyer can only carry out single material conveying, when meeting the condition that the injection molding gun head withdraws from the feeding port of the die cavity, the screw conveyer needs to discharge the internal plastic particles to stop feeding in a standby mode, the standby process of discharging is still in a feeding state, the plastic particles of the feeding hopper of the injection molding gun head are possibly fully piled, leakage occurs, and the raw materials are piled up to the excessive feeding port and the feeding part of the injection molding gun head to be possibly blocked, so that the subsequent ejection of the injection molding gun head is influenced.

SUMMERY OF THE UTILITY MODEL

Based on the above statement, the utility model provides a MPP electric power pipe extrusion material feedway to solve screw conveyer and arrange material standby process and still be in the feed state, the feeder hopper plastic granules that probably causes the rifle head of moulding plastics piles up, appears leaking to the raw materials piles up too much feed inlet and the rifle head feed department of moulding plastics probably appears blockking up, influences the problem of the follow-up rifle head ejection of compact of moulding plastics.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

MPP power line extrusion material feedway, including the organism that is used for the raw materials feed:

the mounting assembly is arranged close to one side of the discharge end of the machine body;

the supporting component is arranged on the machine body and is positioned above the mounting component;

the material guide assembly comprises a feeding portion arranged on the mounting assembly, the feeding portion can slide along the supporting assembly, the material guide assembly further comprises a material return portion arranged between the mounting assembly and the feeding portion, the material return portion can slide along the supporting assembly, and a material outlet of the material return portion is located above the machine body.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the mounting assembly comprises a movable support rod and a mounting plate arranged on the support rod.

Furthermore, a groove is formed in one side, close to the machine body, of the mounting plate, and one side, at the discharge end of the machine body, of the mounting plate penetrates through the groove.

Furthermore, the supporting component comprises a connecting piece arranged on one side of the discharge end of the machine body, a supporting plate arranged on the connecting piece and a sliding rail arranged on one side of the supporting plate relative to the mounting plate.

Furthermore, a feed inlet is formed in the supporting plate and corresponds to the feed part and the feed back part.

Further, a material guide plate is arranged between the feeding portion and the material returning portion, and the material guide plate corresponds to the feeding hole.

Furthermore, protruding edges are arranged on the feeding portion and the material returning portion, and the protruding edges can slide along the sliding rails.

Furthermore, one side of the supporting plate, which is opposite to the mounting plate, is provided with a sliding part positioned on the mounting plate.

Compared with the prior art, the technical scheme of the application has the following beneficial technical effects:

the utility model discloses a set up the installation component, supporting component and guide subassembly, cooperation through feed back portion and supporting component, make the installation component promote, can drive feed back portion and feed back portion simultaneously and follow the supporting component motion, carry out the position change of feed back portion and feed back portion, the organism discharge's raw materials is accepted in the correspondence, send the raw materials back again to the organism, discharge raw materials backward flow to the hopper before realizing the screw conveyer standby in, it deposits to have reduced the interior raw materials of the rifle head feeder hopper of moulding plastics, both avoided piling up the condition of leaking, the possibility that the feeder hopper blockked up has been reduced again.

Drawings

Fig. 1 is a schematic structural view of an MPP power pipe extrusion material feeding device according to an embodiment of the present invention;

fig. 2 is a schematic view of a connection structure of the installation component and the material guiding component in the embodiment of the present invention;

fig. 3 is a schematic structural view of a support assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a material guiding assembly in an embodiment of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1. a body; 2. mounting the component; 21. a support bar; 22. mounting a plate; 3. a support assembly; 31. a connecting member; 32. a support plate; 33. a slide rail; 4. a material guiding assembly; 41. a feeding section; 42. a material returning part; 5. a sliding part; 6. a material guide plate.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Embodiments of the present application are set forth in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

It will be understood that spatial relationship terms, such as "under", "below", "beneath", "below", "over", "above", and the like, may be used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements or features described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary terms "under" and "under" can encompass both an orientation of above and below. In addition, the device may comprise additional orientations (e.g., rotated 90 degrees or other orientations) and the spatial descriptors used herein interpreted accordingly.

Referring to fig. 1-4, in the present embodiment, the MPP power tube extrusion material feeding device includes a machine body 1 for feeding raw materials, an installation component 2, a support component 3 and a material guiding component 4, the installation component 2 is disposed near one side of a discharging end of the machine body 1, the machine body 1 is provided with the support component 3 located above the installation component 2, the material guiding component 4 includes a feeding portion 41 disposed on the installation component 2, the feeding portion 41 can slide along the support component 3, a material returning portion 42 between the installation component 2 and the feeding portion 41, the material returning portion 42 can slide along the support component 3, and a discharging port of the material returning portion 42 is located above the machine body 1.

In the prior art, a feed opening of a screw conveyor is just positioned above a feed hopper of an injection molding gun head, when the injection molding gun head exits from a feed inlet of a mold cavity, the screw conveyor firstly closes a channel between the feed hopper and a conveying part, the conveying part keeps continuous conveying to discharge all internal raw materials, and then the machine can be stopped, in the embodiment, a feed part 41 and a feed back part 42 are additionally arranged between a machine body 1 and the feed hopper of the injection molding gun head, and the raw materials provided by the machine body 1 are guided into the feed hopper of the injection molding gun head through the feed part 41;

when the injection molding gun head withdraws, the feeding part 41 and the material returning part 42 are pushed by the mounting component 2 to move in the same direction, after the material returning part 42 moves to the position of the feeding part 41, the material returning part 42 starts to receive the raw materials discharged by the machine body 1 and conveys the raw materials to the hopper of the machine body 1 until the raw materials inside the machine body 1 are all discharged, the machine body 1 can be stopped, the storage of the raw materials in the injection molding gun head hopper is reduced, the condition of full stacking and leakage is avoided, and the possibility of blockage of the hopper is reduced.

Referring to fig. 1-4, the mounting assembly 2 includes a movable support rod 21 and a mounting plate 22 disposed on the support rod 21, a groove is formed on a side of the mounting plate 22 close to the machine body 1, and a side of the discharging end of the machine body 1 is located to pass through the groove.

The bottom of the support rod 21 is provided with a pulley, and the support rod 21 and the mounting plate 22 are matched to leave a longer distance between the support rod and the injection molding machine, so that the feeding part 41 and the material returning part 42 are arranged between the machine body 1 and the feeding head of the injection molding gun head, and the support rod 21 can be pushed to drive the mounting plate 22 to drive the feeding part 41 and the material returning part 42 to change positions.

Based on the above, since the support rod 21 and the mounting plate 22 are disposed away from the injection molding machine, the mounting plate 22 may be limited by the machine body 1 and cannot move, and therefore, a groove is disposed on one side of the mounting plate 22 close to the machine body 1, and the feed back portion 42 is located behind the feeding portion 41, and the groove extends rearward to cooperate with the mounting plate 22 to move forward.

Referring to fig. 1-4, the supporting assembly 3 includes a connecting member 31 disposed on one side of the discharging end of the machine body 1, a supporting plate 32 disposed on the connecting member 31, and a sliding rail 33 disposed on one side of the supporting plate 32 opposite to the mounting plate 22, wherein a feeding opening is formed in the supporting plate 32, the feeding opening corresponds to the feeding portion 41 and the returning portion 42, and the feeding portion 41 and the returning portion 42 are both provided with a convex edge, and the convex edge can slide along the sliding rail 33.

In this embodiment, one side of the feeding portion 41 and the feeding back portion 42 is supported by the support rod 21 and the mounting plate 22 in a matching manner, and the other side of the feeding portion 41 and the feeding back portion 42 is mounted on the machine body 1 through the supporting plate 32 by matching the convex edge with the slide rail 33 and hoisting the supporting plate 32, so that the feeding portion 41 and the feeding back portion 42 move along the slide rail 33 by the convex edge in the moving process of the mounting plate 21.

Further, a material guide plate 6 is arranged between the feeding part 41 and the material returning part 42, and the material guide plate 6 corresponds to the feeding hole.

Based on the aforesaid when the position of feed portion 41 and feed back portion 42 is changed, if the feed inlet of feed portion 41 and feed back portion 42 separately sets up, the plastics of removing in-process organism 1 exhaust can drop on backup pad 32 to drop injection moulding machine from backup pad 32 on, and this kind of less granule clearance is very troublesome, and the feed inlet when consequently this implementation sets up an organic whole, guide plate 6 between the deuterogamy accepts the raw materials, has avoided the raw materials to discharge unrestrained on injection moulding machine.

Further, the support plate 32 is provided with a slide portion 5 on the mounting plate 22 on the side opposite to the mounting plate 22.

Because the supporting plate 32 supports the feeding portion 41 and the material returning portion 42 through the sliding block 33, and one end of the supporting plate 32 far away from the machine body 1 is flush with the mounting plate 22, so that the actual stability of the longer supporting plate 32 is poor, the implementation is supported between the supporting plate 32 and the mounting plate 22 through the sliding portion 5 formed by combining the supporting rods and the rollers, the supporting plate 32 is supported, the stability is improved, and the mounting plate 22 is not influenced and is positioned to drive the feeding portion 41 and the material returning portion 42 to move.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. An MPP electric power pipe extrusion material feeding device comprises a machine body (1) for feeding raw materials and is characterized in that,

   the mounting component (2) is arranged close to one side of the discharge end of the machine body (1);

   the supporting component (3) is arranged on the machine body (1) and is positioned above the mounting component (2);

   the material guiding assembly (4) comprises a feeding portion (41) arranged on the mounting assembly (2), the feeding portion (41) can slide along the supporting assembly (3), the material guiding assembly (4) further comprises a material returning portion (42) arranged between the mounting assembly (2) and the feeding portion (41), the material returning portion (42) can slide along the supporting assembly (3), and a discharge hole of the material returning portion (42) is located above the machine body (1).
2. 2. The MPP power tube extrusion feed apparatus of claim 1, wherein the mounting assembly (2) includes a movable support bar (21) and a mounting plate (22) disposed on the support bar (21).
3. 3. The MPP power tube extrusion material feeding device of claim 2, wherein a groove is formed in one side of the mounting plate (22) close to the machine body (1), and one side of the discharge end of the machine body (1) is positioned to pass through the groove.
4. 4. The MPP power tube extrusion feeding device of claim 2, wherein the support assembly (3) comprises a connecting member (31) disposed on the discharge end side of the machine body (1), a support plate (32) disposed on the connecting member (31), and a slide rail (33) disposed on the support plate (32) side relative to the mounting plate (22).
5. 5. The MPP power tube extrusion feeding device of claim 4, wherein the supporting plate (32) is provided with a feeding port corresponding to the feeding portion (41) and the returning portion (42).
6. 6. The MPP power tube extrusion material feeding device of claim 5, wherein a material guide plate (6) is arranged between the feeding portion (41) and the material returning portion (42), and the material guide plate (6) corresponds to a feeding hole.
7. 7. The MPP power tube extrusion feeding device of claim 4, wherein the feeding portion (41) and the feeding back portion (42) are both provided with convex edges, and the convex edges can slide along the sliding rails (33).
8. 8. The MPP power tube extrusion feeding device of claim 4, wherein the support plate (32) is provided with a sliding portion (5) on the mounting plate (22) at a side opposite to the mounting plate (22).

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