CN105619758B - Novel spiral moulds muscle pipe process units - Google Patents

Abstract

The present invention relates to a kind of Novel spiral to mould muscle pipe process units, including housing, rotary sleeve and tube body shaping cover, tube body shaping cover is installed with housing, plug is arranged with tube body shaping cover, plug is fixedly connected with the casing, rotary sleeve is also rotatablely equipped with housing, rotary sleeve is sleeved on outside tube body shaping cover, the outer surface of tube body shaping cover is equipped with annular hopper, feed channel is additionally provided with tube body shaping cover, the other end of feed channel extends housing, the inner surface of rotary sleeve is equipped with and the one-to-one guide road of annular hopper, the opening of the first end in guide road is interconnected with annular hopper, the open communication of the second end in guide road is to the inner cavity of tube body shaping cover, housing is equipped with the feed inlet being interconnected with the inner cavity of tube body shaping cover.Modeling muscle feed liquid enters guide road from annular hopper and is then extruded from second end opening in guide road into insertion tube body-shaping set, tube body feed liquid enters the tubular gap between tube body shaping cover and plug from feed inlet at the same time, the extrusion molding of tube body is carried out, muscle feed liquid is so moulded and is extruded from second end opening in guide road and is bonded in outer surface of tube body.

Description

Novel spiral moulds muscle pipe process units

Technical field

The present invention relates to a kind of process units of spiral modeling muscle pipe.

Background technology

Existing spiral modeling muscle pipe production technology, is that first extruding sheet tube body and bar shape muscle, then again in rotating head It is upper to carry out spiral bonding, because being tube body integral-rotation in its production process, so needs are produced with long range sink, account for It is very big with place, such as 30 meters long of modeling muscle helix tube is produced, the prior art just needs 30 meters of long sinks to produce.It is raw Production. art difficulty is big, and the selection to material requires high, high rejection rate, and is limited be subject to rotating head, can not produce osculum Muscle pipe is moulded in footpath, and causes unstable product quality formed with bond line after sheet tube body bonding.

The content of the invention

It is small that the technical problems to be solved by the invention are to provide a kind of occupied ground, stable quality, and can extrude more The different modeling muscle of bar color, the modeling muscle pipe of production is more beautiful, and the Novel spiral modeling muscle that selectable range is wide on material Pipe process units.

In order to solve the above technical problems, the technical scheme is that：Novel spiral moulds muscle pipe process units, including shell Body, rotary sleeve and tube body shaping cover, are installed with tube body shaping cover on the housing, core are arranged with the tube body shaping cover Tubular gap, the plug and the housing are equipped between the inner wall of rod, the outer circumferential surface of the plug and the tube body shaping cover It is fixedly connected, the rotary sleeve relative to the tube body shaping cover and the housing into rotation, institute is also rotatablely equipped with the housing State rotary sleeve to be sleeved on outside the tube body shaping cover, the outer surface of the tube body shaping cover is shaped equipped with least one along the tube body The annular hopper of the contour direction extension of set, be additionally provided with that one end is connected with the annular hopper in the tube body shaping cover into Material path, the other end of feed channel extend the housing, the outer surface of the tube body shaping cover of the both sides of the annular hopper Sealing device is equipped between the inner surface of the rotary sleeve, the inner surface of the rotary sleeve is equipped with the annular hopper one by one Corresponding guide road, the opening of the first end in the guide road are interconnected with the annular hopper, and the second of the guide road The open communication at end to the inner cavity of the tube body shaping cover, the opening of the second end in each guide road is shaped in the tube body Mutually stagger on the length direction of set, the housing is equipped with the feed inlet being interconnected with the inner cavity of the tube body shaping cover.

As preferable technical solution, the lower end of the rotary sleeve extends the housing and is provided with belt pulley.

As preferable technical solution, the upper end of the tube body shaping cover is equipped with reverse frustoconic chamber.

As preferable technical solution, the housing is equipped with the feed cavity connected with the feed inlet, the plug bag Include cylindrical portion and be connected to the shunt head of cylindrical portion upper end, the shunt head is located in the feed cavity, and the shunt head includes Cone, shunt head further include the flow splitter positioned at the cone lower part, the side wall of the flow splitter and the feed cavity it Between be equipped with shunting gap, the shunting gap and the inner cavity of the tube body shaping cover are interconnected.

As preferable technical solution, the housing is equipped with the feed cavity connected with the feed inlet, the plug bag Include cylindrical portion and be connected to the shunt head of cylindrical portion upper end, the shunt head is located in the feed cavity, and the shunt head includes Cone, shunt head further include the flow splitter positioned at the cone lower part, and the flow splitter is equipped with multiple shunting through holes, institute State the inner cavity that shunting through hole connects the tube body shaping cover.

As preferable technical solution, round platform portion, the round platform position are equipped between the cylindrical portion and the shunt head In the reverse frustoconic intracavitary.

As preferable technical solution, the housing and the tube body shaping cover are an integral structure.

By adopting the above-described technical solution, Novel spiral moulds muscle pipe process units, including housing, rotary sleeve and tube body are determined Jacket, is installed with tube body shaping cover on the housing, plug, the periphery of the plug is arranged with the tube body shaping cover Tubular gap is equipped between the inner wall of face and the tube body shaping cover, the plug is fixedly connected with the housing, the housing On be also rotatablely equipped with rotary sleeve relative to the tube body shaping cover and the housing into rotation, the rotary sleeve is sleeved on the pipe Body-shaping set is outer, and the outer surface of the tube body shaping cover is equipped with what at least one contour direction along the tube body shaping cover extended Annular hopper, is additionally provided with the feed channel that one end is connected with the annular hopper in the tube body shaping cover, feed channel it is another Extend the housing, the outer surface of the tube body shaping cover of the both sides of the annular hopper and the interior table of the rotary sleeve in end Be equipped with sealing device between face, the inner surface of the rotary sleeve be equipped with the annular one-to-one guide road of hopper, it is described The opening of the first end in guide road is interconnected with the annular hopper, and the open communication of the second end in the guide road is to described The inner cavity of tube body shaping cover, the opening of the second end in each guide road are mutual on the length direction of the tube body shaping cover Stagger, the housing is equipped with the feed inlet being interconnected with the inner cavity of the tube body shaping cover.Muscle feed liquid is moulded from annular hopper Then extruded into guide road from second end opening in guide road to insertion tube body-shaping in covering, while tube body feed liquid is from feed inlet Into the tubular gap between tube body shaping cover and the plug, the extrusion molding of tube body is carried out, so moulds muscle feed liquid from guide Second end opening in road is extruded and is bonded in outer surface of tube body, by the rotary sleeve of rotation, is formed in outer surface of tube body spiral Muscle is moulded, spiral modeling muscle pipe then can be produced by the sizing that cools down again.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is attached drawing needed in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, without having to pay creative labor, may be used also To obtain other attached drawings according to these attached drawings.

Fig. 1 is the structure diagram of the embodiment of the present invention.

Fig. 2 is the partial enlarged view at I in Fig. 1.

Embodiment

As depicted in figs. 1 and 2, Novel spiral modeling muscle pipe process units, including housing 1, rotary sleeve 2 and tube body shaping cover 3, Tube body shaping cover 3 is installed with the housing 1, plug 10, the periphery of the plug are arranged with the tube body shaping cover Tubular gap is equipped between the inner wall of face and the tube body shaping cover, the plug 10 is fixedly connected with the housing 1, the shell The rotary sleeve 2 relative to the tube body shaping cover 3 and the rotation of the housing 1,2 sets of the rotary sleeve are also rotatablely equipped with body 1 Outside the tube body shaping cover 3, the outer surface of the tube body shaping cover 3 is equipped with least one week along the tube body shaping cover 3 Line direction extension annular hopper 4, in the present embodiment the outer surface of the tube body shaping cover 3 be equipped with two annular materials Groove, can also set the annular hopper more than one or two in specific implementation process, in the tube body shaping cover 3 The feed channel 5 that one end is connected with the annular hopper 4 is additionally provided with, the other end of feed channel 5 extends the housing 1, described Sealing device is equipped between the outer surface of the tube body shaping cover of the both sides of annular hopper 4 and the inner surface of the rotary sleeve, It is fitted close and can makees positioned at the outer surface of the qualitative set of the tube body of annular 4 both sides of hopper and the inner surface of the rotary sleeve For the sealing device, the inner surface of the rotary sleeve 2 be equipped with the annular one-to-one guide road 6 of hopper 4, it is described to lead The opening of the first end of material path 6 is interconnected with the annular hopper 4, the open communication of the second end in the guide road 6 to institute State the inner cavity of tube body shaping cover 3, the length direction of the opening of the second end in each guide road 6 in the tube body shaping cover 3 On mutually stagger, the housing 1 is equipped with the feed inlet 7 being interconnected with the inner cavity of the tube body shaping cover 3.Mould muscle feed liquid from Feed channel is entered in annular hopper 4, rotary sleeve 2 do not stall it is dynamic, annular hopper can guarantee that rotary sleeve 2 rotate when, guide road and Annular hopper keeps connection, and modeling muscle feed liquid enters guide road from annular hopper and then extruded from second end opening in guide road to slotting Enter in tube body shaping cover 3, while tube body feed liquid enters the tubular gap between tube body shaping cover and the plug from feed inlet, into The extrusion molding of row tube body, so moulds muscle feed liquid and is extruded from second end opening in guide road and is bonded in outer surface of tube body, lead to The rotary sleeve rotated is crossed, spiral modeling muscle is formed in outer surface of tube body, spiral modeling muscle then can be produced by the sizing that cools down again Pipe.

Extend the housing and belt pulley 8 is installed in the lower end of the rotary sleeve 2.Rotary sleeve is driven by belt pulley Rotate, realize the extrusion of modeling muscle.

The upper end of the tube body shaping cover 3 is equipped with reverse frustoconic chamber 9.

The housing 1 and the tube body shaping cover 3 are an integral structure.

The housing 1 is equipped with the feed cavity 11 connected with the feed inlet 7, and the plug 10 includes cylindrical portion 12 and connects The shunt head of 12 upper end of cylindrical portion is connected on, the shunt head is located in the feed cavity 11, and the shunt head includes cone 13, Shunt head further includes the flow splitter 14 positioned at 13 lower part of cone, the side wall of the flow splitter 14 and the feed cavity 11 it Between be equipped with shunting gap 15, the shunting gap 15 and the inner cavity of the tube body shaping cover 3 are interconnected.Tube body feed liquid is from charging Mouthful enter feed cavity 11, under the shunting function of shunt head, tube body feed liquid uniformly enter tube body shaping cover and the plug it Between tubular gap, ensure that the uniform wall thickness of the tube body of extrusion is consistent.

As a kind of perferred technical scheme, the housing 1 is equipped with the feed cavity 11 connected with the feed inlet 7, institute Stating plug 10 includes cylindrical portion 12 and the shunt head for being connected to 12 upper end of cylindrical portion, and the shunt head is located at the feed cavity 11 Interior, the shunt head includes cone 13, and shunt head further includes the flow splitter 14 positioned at 13 lower part of cone, the shunting Ring 14 is equipped with multiple shunting through holes, and the shunting through hole connects the inner cavity of the tube body shaping cover 3.Tap hole causes tube body material Liquid more uniformly flows into the tubular gap between tube body shaping cover and the plug, equally ensure that the wall thickness of the tube body of extrusion Uniformity.

Round platform portion 16 is equipped between the cylindrical portion and the shunt head, the round platform portion 16 is located at the reverse frustoconic chamber In 9.The gap that a upper end opening is more than lower ending opening is so formd between the inner wall of round platform portion and reverse frustoconic chamber, this Sample enables tube body feed liquid continuously and uniformly flows into the tubular gap between tube body shaping cover and the plug.

While tube body is extruded, extrude modeling muscle using rotary sleeve and be bonded on tube body, produce new soap-free emulsion polymeization The modeling muscle pipe of seam, occupied ground is small, stable quality.Can be to annular one modeling muscle of hopper feed extrusion, can also be at the same time It is fed at the same time to each annular hopper and extrudes the different modeling muscle of a plurality of color, makes modeling muscle pipe more beautiful.It may be selected on material Scope is wide, and material limitation is small.Production efficiency is high, and rejection rate is low, can produce the modeling muscle pipe of various bores, to producing field during production Ground area requires small, and product quality is stablized, and efficiently solves in former modeling muscle pipe production process because of the adhesion problem of material, only The problem of certain material can be selected, overcome limitation of the prior art in material selection.

Basic principle, main feature and the advantages of the present invention of the present invention has been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (6)

1. Novel spiral moulds muscle pipe process units, it is characterised in that：Including housing, rotary sleeve and tube body shaping cover, the housing On be installed with tube body shaping cover, plug, the outer circumferential surface of the plug and the tube body are arranged with the tube body shaping cover Tubular gap is equipped between the inner wall of shaping cover, the plug is fixedly connected with the housing, is also rotatablely installed on the housing There is the rotary sleeve relative to the tube body shaping cover and the housing into rotation, the rotary sleeve is sleeved on outside the tube body shaping cover, The outer surface of the tube body shaping cover is equipped with the annular hopper that at least one contour direction along the tube body shaping cover extends, institute State and the feed channel that one end is connected with the annular hopper is additionally provided with tube body shaping cover, the other end of feed channel extends described Housing, is equipped with close between the outer surface of the tube body shaping cover of the both sides of the annular hopper and the inner surface of the rotary sleeve Seal apparatus, the inner surface of the rotary sleeve be equipped with the annular one-to-one guide road of hopper, the first of the guide road The opening at end is interconnected with the annular hopper, the open communication of the second end in the guide road to the tube body shaping cover Inner cavity, the opening of the second end in each guide road mutually stagger on the length direction of the tube body shaping cover, the shell Body is equipped with the feed inlet being interconnected with the inner cavity of the tube body shaping cover.

2. Novel spiral as claimed in claim 1 moulds muscle pipe process units, it is characterised in that：The lower end extension of the rotary sleeve Go out the housing and belt pulley is installed；The housing and the tube body shaping cover are an integral structure.

3. Novel spiral as claimed in claim 2 moulds muscle pipe process units, it is characterised in that：The upper end of the tube body shaping cover Equipped with reverse frustoconic chamber.

4. Novel spiral as claimed in claim 1 moulds muscle pipe process units, it is characterised in that：The housing be equipped with it is described The feed cavity of feed inlet connection, the plug include cylindrical portion and the shunt head for being connected to cylindrical portion upper end, and the shunt head is set In the feed cavity, the shunt head includes cone, and shunt head further includes the flow splitter positioned at the cone lower part, institute State the inner cavity that shunting gap, the shunting gap and the tube body shaping cover are equipped between flow splitter and the side wall of the feed cavity It is interconnected.

5. Novel spiral as claimed in claim 1 moulds muscle pipe process units, it is characterised in that：The housing be equipped with it is described The feed cavity of feed inlet connection, the plug include cylindrical portion and the shunt head for being connected to cylindrical portion upper end, and the shunt head is set In the feed cavity, the shunt head includes cone, and shunt head further includes the flow splitter positioned at the cone lower part, institute State flow splitter and be equipped with multiple shunting through holes, the shunting through hole connects the inner cavity of the tube body shaping cover.

6. Novel spiral as claimed in claim 5 moulds muscle pipe process units, it is characterised in that：The cylindrical portion and the shunting Round platform portion is equipped between head, the round platform portion is located at reverse frustoconic intracavitary.