CN111204031A - Plastic granules dissolves shaping tubulation equipment - Google Patents

Abstract

The invention discloses a plastic particle dissolving forming pipe making device, which structurally comprises a bottom control box, a quantity adjusting end, a material guide port, a pressure-reducing pipe, a temperature-reducing connecting pipe and a pipe supporting port, wherein the pressure-reducing pipe is welded on the outer surface of the bottom control box, the quantity adjusting end is connected with the pressure-reducing pipe and is dissolved and extruded into the temperature-reducing connecting pipe for pressure pushing forming, when the plastic particle dissolving forming pipe is extruded, a fixed core can support the surface of an object, the periphery of the object is fixed by extending a supporting angle in an auxiliary way, a through port between spacing blocks can ventilate and cool the object which is collided by the spacing blocks, the forming object can be subjected to spacing cooling at the tail end to be output, the shape of the forming object is more consolidated, the forming object can be led into the interior through an access port, a reverse push plate of the forming object can be extruded in the material leading-in process, when the object is extruded, a river lake is deformed, a curved arc head has a bending effect, when, the material is not fed intermittently, so that the inlet is semi-closed when the material is not enough to be formed into a section.

Description

Plastic granules dissolves shaping tubulation equipment

Technical Field

The invention belongs to the field of plastic processing machinery, and particularly relates to plastic particle dissolving and forming pipe manufacturing equipment.

Background

After the plastic particles are dissolved by heat treatment in batches, the plastic particles are placed into a pipe with a required shape, and are extruded and molded towards the other end by the extrusion force of one end and cooled, so that the plastic particles are molded into a required state.

Based on the above findings, the present inventors found that the existing plastic pipe-making equipment mainly has the following disadvantages, such as:

1. when the plastic is output in a tubular shape, the middle part is in a hollow state, the radian of the upper side is sagged, the originally formed part is easy to drag, and the plastic is loose and difficult to recover.

2. The raw materials are formed by rear-end extrusion and fusion, and when the materials extruded into the tail end of the rear section are not enough and are too much to be extruded, the materials cannot be extruded into the tail end at one time, so that the formed density and form are influenced.

Therefore, a plastic particle dissolution molding pipe manufacturing device is needed.

Disclosure of Invention

In order to solve the above-mentioned technology because plastics are when being the tubular shape output, the middle is the state of fretwork, and the radian of upside has the flagging, drags its good position of shaping more easily, produces and relaxes and is difficult to resume, and its raw materials are through rear end extrusion fusion shaping, and the material that is crowded into when the rear end is too much and is convenient and less than the time, can not once compact whole crowding, thereby influences the problem of shaping density and form.

The invention relates to a plastic particle dissolving and forming pipe making device, which is realized by the following specific technical means:

the structure of the device comprises a bottom control box, a volume adjusting end, a material guide port, a pressure pipe, a cooling connecting pipe and a pipe supporting port.

The pressure type pipe is welded on the outer surface of the bottom control box, the quantity adjusting end is connected with the pressure type pipe, the material guide port penetrates through the inside of the pressure type pipe, and the cooling connecting pipe is communicated with the pipe supporting port.

As a further improvement of the invention, the tube supporting port comprises an outer bracket, a middle extrusion bag, an outer limiting body, a support semi-arc and a mould track, wherein the middle extrusion bag is arranged between the outer bracket and the outer limiting body, the support semi-arc is embedded in the outer bracket, the mould track is arranged in the outer bracket, the support semi-arc is of a semi-arc structure and is uniformly distributed in the horizontal direction, and the middle extrusion bag is in a rectangular structure in a front view.

As a further improvement of the invention, the outer bracket comprises a spacing block, a through opening and a middle support body, the through opening is arranged on the side of the spacing block, the middle support body is positioned in the through opening, the spacing block is uniformly distributed in a circular ring shape, and the middle support body is in a cylindrical structure.

As a further improvement of the invention, the spacing block comprises a force fixing block, a rubber support, two inclined angle bodies, two extending bodies and two core buffering angles, wherein the rubber support is attached to the outer surface of the inclined angle body, the inclined angle bodies are connected with the force fixing block, the inclined angle bodies are embedded into the extending bodies, the extending bodies are connected with the core buffering angles, and the two extending bodies are symmetrically distributed.

As a further improvement of the invention, the support semi-arc comprises two support extending angles, a clamping ball, an arc bonding strip and a middle fixing core, wherein the support extending angles are attached to the outer surface of the arc bonding strip, the clamping ball is embedded into the arc bonding strip, the middle fixing core is abutted against the surface of the arc bonding strip, the arc bonding strip is of an arc structure, and the support extending angles are symmetrically distributed.

As a further improvement of the invention, the press-forming pipe comprises an outer limit layer, a press included angle, a counter arc head, a counter thrust plate and an access port, wherein the counter arc head is embedded in the outer limit layer, the press included angle is arranged between the counter arc head and the counter thrust plate, the access port penetrates through the inner part of the outer limit layer, and the counter arc head is made of rubber materials and has certain pulling performance.

As a further improvement of the invention, the counter-thrust plate comprises a medium-pressure ball, two surface receiving edges, two curved arc heads and two deformation angles, wherein the medium-pressure ball is arranged between the two surface receiving edges, the deformation angles are attached to the outer surfaces of the curved arc heads, the two surface receiving edges are provided, the curved arc heads are of arc strip structures, and the two deformation angles are provided.

As a further improvement of the invention, the medium-pressure shaped ball comprises a fixed bending block, supporting strips, a pressing bag and an outer colloid, wherein the pressing bag is arranged inside the fixed bending block, the supporting strips are arranged on the outer surface of the outer colloid, the pressing bag is in a convex shape at two sides of a concave, and the number of the fixed bending blocks is two.

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

1. let it dissolve and extrude and carry out pressure promotion shaping inside the cooling takeover, when it will extrude, wherein gu the core will hold in the palm the surface of its object, fixed middle-end glues the power of holding in the palm, assist through prolonging the support angle and fix its periphery, let the object can attach its outer bracket support and pull out, contradict to its object through prolonging the body and delaying the core angle, let the mouthful object of contradicting to it of penetrating between the spacer block carry out ventilative cooling, can be at the end that will export at fashioned object, carry out interval cooling, let its form more consolidate.

2. Will be through inserting the leading-in inside of mouth, at the leading-in-process of material, will extrude its back-push pedal, when having the object to extrude, rivers and lakes produce deformation to press to the inner wall and hug closely, extrude its pressure bag through outer colloid, let the bended-arc head play crooked effect, when the material input of rear end is not enough, can not discontinuous input, can be when the raw materials is not enough the shaping for one section, the entry will half seal.

Drawings

FIG. 1 is a schematic structural diagram of a plastic particle dissolution molding pipe manufacturing apparatus according to the present invention.

Fig. 2 is a left-side view of the internal structure of the nozzle of the present invention.

Fig. 3 is a left-side view of the inner structure of the outer bracket of the present invention.

Fig. 4 is a schematic front view of the inner structure of the spacer according to the present invention.

Fig. 5 is a schematic front view of an internal structure of a bracket half arc according to the present invention.

FIG. 6 is a left-side view of the inner structure of the press pipe of the present invention.

FIG. 7 is a schematic front view of the inner structure of the counter plate according to the present invention.

Fig. 8 is a front view of the internal structure of a medium-pressure ball according to the present invention.

In the figure: the device comprises a bottom control box-qw, a quantity regulating end-qw, a material guide port-qw, a pressure forming pipe-qw, a cooling connecting pipe-qw, a supporting pipe port-qw, an outer bracket-a, a middle extrusion bag-a, an outer limit body-a, a supporting semi-arc-a, a channel-a, a spacing block-www, a through port-www, a middle support body-www, a fixing block-g, a rubber support-g, an inclination angle body-g, a delay core angle-zx, a clamping ball-zx, a sticky arc strip-zx, a middle fixing core-zx, an outer limit layer-xx, a pressure included angle-xx, a reverse arc head-xx, a reverse push plate-xx, a port-xx, a middle pressure access ball-ss, a surface receiving edge-ss, a bent arc head-ss, a deformation angle-ss, a fixed bending block-tr, a supporting bag-trtr and an outer glue body.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides plastic particle dissolving and forming pipe manufacturing equipment, which structurally comprises a bottom control box qw11, a quantity adjusting end qw22, a material guide port qw33, a pressure forming pipe qw44, a cooling connecting pipe qw55 and a pipe supporting port qw 66.

The pressure-type pipe qw44 is welded on the outer surface of the bottom control box qw11, the quantity-adjusting end qw22 is connected with the pressure-type pipe qw44, the material guide port qw33 penetrates through the pressure-type pipe qw44, and the temperature-reducing connecting pipe qw55 is communicated with the supporting pipe port qw 66.

The bracket tube port qw66 includes an outer bracket a01, a middle extrusion bag a02, an outer limit body a03, a support half arc a04 and a channel a05, the middle extrusion bag a02 is installed between the outer bracket a01 and the outer limit body a03, the support half arc a04 is embedded inside the outer bracket a01, the channel a05 is placed inside the outer bracket a01, the support half arc a04 is in a half arc structure and is uniformly distributed in the horizontal direction, the middle extrusion bag a02 is in a rectangular structure, the channel a05 limits the range of the object forming form, the outer bracket a01 collides with an external object with a large area, the support half arc a04 adheres to the collided object, the outer limit body a03 limits the moving range of the position, and the middle extrusion bag a02 is in a counterforce state when one end of the outer object is stressed.

The outer bracket a01 comprises a spacing block www1, a through opening www2 and a middle abutting body www3, the through opening www2 is installed on the side of the spacing block www1, the middle abutting body www3 is located inside the through opening www2, the spacing block www1 is uniformly distributed in a circular ring shape, the middle abutting body www3 is of a cylindrical structure, the middle abutting body www3 fixes the position of the whole center, the spacing block www1 plays a role in spacing conflict on the inner position, and the through opening www2 enables the inner object to be capable of conducting heat dissipation outwards at intervals.

The spacing block www1 comprises a fixed force block g11, a rubber support g22, an inclined angle body g33, an extension body g44 and a slow core angle g55, wherein the rubber support g22 is attached to the outer surface of the inclined angle body g33, the inclined angle body g33 is connected with a fixed force block g11, the inclined angle body g33 is embedded into the extension body g44, the extension body g44 is connected with the slow core angle g55, the number of the inclined angle bodies g33 is two, the extension bodies g44 are symmetrically distributed, the fixed force block g11 fixes the whole force, the inclined angle body g33 extends and fixes the inclined angle body on the basis of the fixed force at a certain angle, the extension body g44 extends the force of a joint part, and the rubber support g22 plays a role in pulling back when the joint part is slightly stressed.

The support half-arc a04 comprises a support angle zx1, a clamping ball zx2, an arc-bonding strip zx3 and a middle fixing core zx4, the support angle zx1 is attached to the outer surface of the arc-bonding strip zx3, the clamping ball zx2 is embedded inside the arc-bonding strip zx3, the middle fixing core zx4 abuts against the surface of the arc-bonding strip zx3, the arc-bonding strip zx3 is of an arc-shaped structure, the support angles zx1 are provided with two pieces and are symmetrically distributed, the middle fixing core zx4 fixes the force of the middle end support, the arc-bonding strip zx3 generates a required shape according to the shape of an object which is abutted by the outside, stretching or shrinking is carried out, and the clamping ball zx2 enables the whole force to be more uniform.

The specific use mode and function of the embodiment are as follows:

in the invention, plastic particles are placed in the material guide port qw33, and are dissolved and extruded into the cooling connecting pipe qw55 for pressure push forming through the heating in the pressure forming pipe qw44, when the extrusion is required, the extrusion die is moved outwards through the channel a05, when the extrusion die is moved to a certain position, the supporting half arc a04 supports the surface of the extrusion die after being molded, wherein the fixed core zx4 will support the surface of the object, the periphery of the fixed core is fixed by extending the supporting angle zx1, the extension and retraction of the arc-sticking strip zx3 adjusts the contact area and force of the clamping ball zx2 to the object, the object can pull out the outer bracket a01, as outer bracket a01 squeezes balloon a02 therein out along outer tether a03, the fixing block g11 fixes the force in all directions, so that the inclined angle body g33 is inclined to extend out of the force of the fixing block g11, the objects are collided through the extension body g44 and the core-slowing angle g55, and the through openings www2 between the spacing blocks www1 are used for ventilating and cooling the collided objects.

Example 2:

as shown in fig. 6 to 8:

the profiling pipe qw44 comprises an outer limit layer xx10, a profiling included angle xx20, a reverse arc head xx30, a reverse push plate xx40 and an access port xx50, wherein the reverse arc head xx30 is embedded in the outer limit layer xx10, the profiling included angle xx20 is installed between the reverse arc head xx30 and the reverse push plate xx40, the access port xx50 penetrates through the inner portion of the outer limit layer xx10, the reverse arc head xx30 is made of rubber materials and has certain pulling performance, the access port xx50 enables the inner portion and the outer portion to be better connected, when an object is squeezed by the reverse push plate xx40, a river lake deforms and is pressed to the inner wall to be attached, when the reverse arc head xx30 is stressed, the reverse arc head xx30 is in a connected pulling state, and the outer limit layer xx10 limits the whole area.

The counter-thrust plate xx40 comprises a medium-pressure ball ss11, surface receiving sides ss22, a curved arc head ss33 and a deformation angle ss44, wherein the medium-pressure ball ss11 is mounted between two surface receiving sides ss22, the deformation angle ss44 is attached to the outer surface of the curved arc head ss33, two surface receiving sides ss22 are arranged, the curved arc head ss33 is of an arc strip structure, two deformation angles ss44 are arranged, the surface receiving sides ss22 bear external force in a large area, the medium-pressure ball ss11 generates a compression state when the outer layer is stressed, the curved arc head ss33 enables the whole to have a fixed bending angle when the whole is stressed, and the deformation angle ss44 enlarges the whole buffering area.

The middle-pressure ball ss11 comprises a fixed bending block tr1, two supporting strips tr2, a pressure bag tr3 and an outer colloid tr4, wherein the pressure bag tr3 is installed inside the fixed bending block tr1, the supporting strips tr2 are installed on the outer surface of the outer colloid tr4, the pressure bag tr3 is in a shape of protruding from the two sides of a concave center, the fixed bending block tr1 is provided with two supporting strips, the outer colloid tr4 bears external force in all directions, the pressure bag tr3 can run according to the force collided by the outer side, the inner gas can deform the outer layer, and the supporting strips tr2 are stressed at the joint part and are in a pulling state to play a buffering role.

The specific use mode and function of the embodiment are as follows:

in the invention, when a material is introduced into a pressure tube qw44 through a material guide port qw33, the material is introduced into the pressure tube qw44 through an access port xx50, in the process of introducing the material, a counter-push plate xx40 is extruded, the surface of the counter-push plate xx40 is stressed and collided by an edge ss22, when an internal medium-pressure ball ss11 bears external force, a pressure bag tr3 is extruded through an external colloid tr4, a bending block tr1 plays a role of following and buffering when the pressure bag tr3 deforms, a supporting strip tr2 supports the whole pressure bag, the surface of the counter-push plate xx 22 is in a flat state, a bending arc head ss33 plays a bending effect, when the material input at the rear end is insufficient, the counter-push plate xx40 loses a certain resistance properly, the material is compacted and input, and when the material is only a little, the counter-push plate xx40 can semi-close the access port xx50 and can not be input discontinuously.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (8)

1. The utility model provides a plastic granules dissolves shaping tubulation equipment, its structure includes bottom control case (qw11), volume regulation end (qw22), guide mouth (qw33), pressure type pipe (qw44), cooling takeover (qw55), trusteeship mouth (qw66), its characterized in that:

the pressure-type pipe (qw44) is welded on the outer surface of the bottom control box (qw11), the quantity regulating end (qw22) is connected with the pressure-type pipe (qw44), the material guide port (qw33) penetrates through the inside of the pressure-type pipe (qw44), and the cooling connecting pipe (qw55) is communicated with the pipe supporting port (qw 66).

2. The apparatus for forming a tube by dissolving plastic granules according to claim 1, wherein: the pipe supporting opening (qw66) comprises an outer bracket (a01), a middle extrusion bag (a02), an outer limiting body (a03), a support half arc (a04) and a mould channel (a05), wherein the middle extrusion bag (a02) is installed between the outer bracket (a01) and the outer limiting body (a03), the support half arc (a04) is embedded into the outer bracket (a01), and the mould channel (a05) is placed into the outer bracket (a 01).

3. The plastic particle dissolving molding pipe making apparatus according to claim 2, wherein: the outer bracket (a01) comprises a spacing block (www1), a through opening (www2) and a middle abutting body (www3), wherein the through opening (www2) is arranged on the side of the spacing block (www1), and the middle abutting body (www3) is positioned inside the through opening (www 2).

4. The apparatus for producing a pipe by dissolution molding of plastic pellets as set forth in claim 3, wherein: spacing piece (www1) including solid power piece (g11), glue support (g22), the angle of inclination body (g33), prolong body (g44), slow core angle (g55), glue support (g22) and laminate in the external surface of angle of inclination body (g33), angle of inclination body (g33) is connected with solid power piece (g11), the angle of inclination body (g33) is embedded in and is prolonged inside body (g44), it is connected with slow core angle (g55) to prolong body (g 44).

5. The plastic particle dissolving molding pipe making apparatus according to claim 2, wherein: the support half arc (a04) comprises a support extending angle (zx1), a clamping ball (zx2), an arc bonding strip (zx3) and a middle fixing core (zx4), wherein the support extending angle (zx1) is attached to the outer surface of the arc bonding strip (zx3), the clamping ball (zx2) is embedded into the arc bonding strip (zx3), and the middle fixing core (zx4) abuts against the surface of the arc bonding strip (zx 3).

6. The apparatus for forming a tube by dissolving plastic granules according to claim 1, wherein: the pressure-forming pipe (qw44) comprises an outer limit layer (xx10), a pressure included angle (xx20), an anti-arc head (xx30), a counter-thrust plate (xx40) and an access port (xx50), wherein the anti-arc head (xx30) is embedded into the outer limit layer (xx10), the pressure included angle (xx20) is installed between the anti-arc head (xx30) and the counter-thrust plate (xx40), and the access port (xx50) penetrates through the inner portion of the outer limit layer (xx 10).

7. The apparatus for manufacturing tubes by dissolution molding of plastic pellets as set forth in claim 6, wherein: the counter-thrust plate (xx40) comprises a medium-pressure ball (ss11), a surface-receiving side (ss22), a bent arc head (ss33) and a deformation angle (ss44), wherein the medium-pressure ball (ss11) is arranged between the two surface-receiving sides (ss22), and the deformation angle (ss44) is attached to the outer surface of the bent arc head (ss 33).

8. The apparatus for manufacturing tubes by dissolution molding of plastic pellets as set forth in claim 7, wherein: the middle-pressure ball (ss11) comprises a fixed bending block (tr1), a supporting strip (tr2), a pressing bag (tr3) and an outer colloid (tr4), wherein the pressing bag (tr3) is installed inside the fixed bending block (tr1), and the supporting strip (tr2) is installed on the outer surface of the outer colloid (tr 4).

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