阅读说明：本技术 Pet瓶胚加工组件及pet瓶胚加工方法 (PET bottle blank processing assembly and PET bottle blank processing method ) 是由 林勇波 罗海龙 彭炜健 张连飞 于 2020-07-17 设计创作，主要内容包括：本申请涉及PET瓶胚加工组件及PET瓶胚加工方法。本申请所述的PET瓶胚加工组件及PET瓶胚加工方法包括：模具和反吹清洗机构,所述反吹清洗机构与所述模具连接；所述模具内形成有注塑腔体,并且所述模具上位于所述注塑腔体的两端分别形成有主气孔和注塑孔,所述主气孔和所述注塑孔分别与所述注塑腔体连通,形成反吹通道；所述反吹清洗机构包括压缩空气管线、控制气阀、压缩气源；所述控制气阀安装在所述压缩空气管线上,所述压缩空气管线的一端与所述主气孔安装并连通,另一端与所述压缩气源连接。本申请所述的PET瓶胚加工组件及PET瓶胚加工方法具有方便清灰且快速的优点。(The application relates to a PET bottle blank processing assembly and a PET bottle blank processing method. The PET bottle blank processing assembly and the PET bottle blank processing method comprise the following steps: the back-blowing cleaning mechanism is connected with the mould; an injection molding cavity is formed in the mold, a main air hole and an injection molding hole are formed in the mold and positioned at two ends of the injection molding cavity respectively, and the main air hole and the injection molding hole are communicated with the injection molding cavity respectively to form a back blowing channel; the back-blowing cleaning mechanism comprises a compressed air pipeline, a control air valve and a compressed air source; the control air valve is installed on the compressed air pipeline, one end of the compressed air pipeline is installed and communicated with the main air hole, and the other end of the compressed air pipeline is connected with the compressed air source. The PET bottle blank processing assembly and the PET bottle blank processing method have the advantages of convenience in ash removal and rapidness.)

1. The utility model provides a PET bottle embryo processing subassembly which characterized in that: the device comprises a mould and a back-blowing cleaning mechanism, wherein the back-blowing cleaning mechanism is connected with the mould;

an injection molding cavity is formed in the mold, a main air hole and an injection molding hole are formed in the mold and positioned at two ends of the injection molding cavity respectively, and the main air hole and the injection molding hole are communicated with the injection molding cavity respectively to form a back blowing channel;

the back-blowing cleaning mechanism comprises a compressed air pipeline, a control air valve and a compressed air source; the control air valve is installed on the compressed air pipeline, one end of the compressed air pipeline is installed and communicated with the main air hole, and the other end of the compressed air pipeline is connected with the compressed air source.

2. The PET bottle preform processing assembly of claim 1, wherein: the die comprises a first mounting plate, a mounting seat, a core and a cavity, wherein a sleeving cavity penetrating through the mounting seat is formed in the mounting seat, the core is sleeved in the sleeving cavity of the mounting seat, one end of the core is fixedly connected with the first mounting plate, the other end of the core is sleeved in the cavity, one end of the mounting seat is abutted against the surface of the first mounting plate, and the other end of the mounting seat is connected with the cavity;

the first mounting plate is provided with the main air hole;

an annular air path is formed between the mold core and the mounting seat;

an injection molding filling space is formed between the mold core and the mold cavity, and one end of the injection molding filling space is provided with the injection molding hole; the main air hole, the annular air passage, the injection molding filling space and the injection molding hole are communicated in sequence to form the back blowing channel.

3. The PET bottle preform processing assembly of claim 2, wherein: the mold core is closely sleeved with the mounting seat near the first mounting plate;

two shunt through holes are formed in the mounting seat to form a shunt air path; two main air holes are formed in the first mounting plate, one end of each shunt through hole is correspondingly communicated with the main air holes, and the other end of each shunt through hole is communicated with the annular air passage.

4. The PET bottle preform processing assembly of claim 3, wherein: the die also comprises a screw connection pipe, two ends of the screw connection pipe are conical surfaces, and the middle of the screw connection pipe is of a tubular structure with a convex ring;

the screw connecting pipe is movably sleeved on the mold core, one end of the screw connecting pipe is tightly sleeved with the mold cavity, and the other end of the screw connecting pipe is tightly connected with the mounting seat; a connecting channel is formed between the screw connecting pipe and the mold core, and two ends of the connecting channel are respectively communicated with the annular gas path and the injection molding filling space; the main air hole, the annular air passage, the connecting channel, the injection molding filling space and the injection molding hole are communicated in sequence to form the back blowing channel.

5. The PET bottle preform processing assembly of claim 4, wherein: the die core is characterized by further comprising a die core sleeve, the die core sleeve is sleeved on the die core, one end of the die core sleeve is sleeved in the mounting seat, an annular groove body is formed in the screw connection pipe, the other end of the die core sleeve is sleeved in the groove body, and the end face of the die core sleeve abuts against the end face of the groove body to communicate the annular air passage and the connection channel;

a transverse through hole is formed on the core sleeve, an injection tail end air passage is formed between the core sleeve and the core, and the transverse through hole is communicated with the injection tail end air passage;

the main air hole, the shunt through hole, the annular air passage, the transverse through hole, the injection tail end air passage, the connecting channel, the injection molding filling space and the injection molding hole are communicated in sequence to form the back flushing channel.

6. The PET bottle preform processing assembly of claim 5, wherein: a first annular groove is formed in the inner wall of the core sleeve at the transverse through hole and is communicated with the transverse through hole; the core is provided with a longitudinal groove along the axial direction and positioned between two ends of the core sleeve, and a second ring groove is formed at one end of the core positioned in the longitudinal groove; between the second annular groove and the connecting channel, the core and the core sleeve form a gap which is communicated with the connecting channel; the first ring groove, the longitudinal groove, the second ring groove, and the gap form the injection tip gas path.

7. The PET bottle preform processing assembly of any one of claims 2-6, wherein: the cavity comprises a cavity body and a cavity bottom;

and an injection molding port is formed at one end of the cavity bottom and is communicated with the inside of the cavity through the injection molding hole.

8. A PET bottle blank processing method is characterized by comprising the following steps:

arranging a back flushing cleaning mechanism; the back-blowing cleaning mechanism comprises a compressed air pipeline, a control air valve and a compressed air source; the control air valve is arranged on the compressed air pipeline, one end of the compressed air pipeline is communicated with an outlet of an injection molding cavity of the mold, and the other end of the compressed air pipeline is connected with the compressed air source;

and injecting compressed air into the injection molding cavity of the mold through a back flushing cleaning mechanism, so that the compressed air flows from an outlet to an inlet of the injection molding cavity.

9. The method for processing the PET bottle blank according to claim 8, wherein before injecting the compressed air into the injection cavity of the mold, the method further comprises the steps of: the mold is in a mode locking state, PET plastic is quickly injected into the injection molding cavity, and high-pressure air generated in the quick injection molding process is discharged through an outlet of the injection molding cavity.

10. The method for processing PET bottle preform according to claim 9, wherein: the mold is according to any one of claims 2 to 7.

Technical Field

The application relates to the field of PET bottle embryo processing, in particular to a PET bottle embryo processing assembly and a PET bottle embryo processing method.

Background

With the wide popularization and use of PET plastic bottles, the number of cavities of a PET bottle blank mold is larger and larger based on the consideration of market capacity demand and economic benefit, and the forming period is faster and faster. However, as the production time increases, the parts on the PET mold will slowly deposit the PET material due to the mixture of dust and oil and water generated by the high temperature. The mixture has certain thick viscosity and can be accumulated on a part exhaust channel, and finally the exhaust system of the PET bottle blank mold can be blocked.

The blockage of the exhaust channel of the mold can lead to the generation of a large amount of waste products in continuous production. The corresponding solution at present is to stop the production of the equipment and to carry out the surface cleaning treatment by cleaning with dry ice or disassembling the parts associated with the exhaust, so as to restore the smoothness of the exhaust channel of the mould, and the equipment or the parts need to be disassembled. The processing method needs a large amount of manpower and material resources, and greatly influences the production capacity while increasing the production cost expenditure.

Disclosure of Invention

Based on this, the utility model aims at providing a PET bottle embryo processing subassembly and PET bottle embryo processing method, it has the ash that convenient quick clear PET bottle embryo produced of moulding plastics to improve the laborsaving advantage of machining efficiency.

One aspect of the application provides a PET bottle blank processing assembly, which comprises a mold and a back-blowing cleaning mechanism, wherein the back-blowing cleaning mechanism is connected with the mold;

an injection molding cavity is formed in the mold, a main air hole and an injection molding hole are formed in the mold and positioned at two ends of the injection molding cavity respectively, and the main air hole and the injection molding hole are communicated with the injection molding cavity respectively to form a back blowing channel;

the back-blowing cleaning mechanism comprises a compressed air pipeline, a control air valve and a compressed air source; the control air valve is installed on the compressed air pipeline, one end of the compressed air pipeline is installed and communicated with the main air hole, and the other end of the compressed air pipeline is connected with the compressed air source.

According to the PET bottle blank processing assembly, the back-blowing cleaning mechanism is arranged and is communicated with the injection molding cavity of the mold, so that on one hand, the injection molding cavity is back-blown by high-pressure air, dust and oil-water mixture in the injection molding cavity is cleaned, the smooth injection molding cavity is ensured, and the production is kept uninterrupted; on the other hand, the structure of the original mold and the injection molding cavity is not changed, only the processing technology is changed, the smooth injection molding cavity can be ensured, meanwhile, the operation cost is reduced, the mold is not damaged, and even the production has the effect of wider process window.

Further, the mold comprises a first mounting plate, a mounting seat, a mold core and a cavity, wherein a sleeving cavity penetrating through the mounting seat is formed in the mounting seat, the mold core is sleeved in the sleeving cavity of the mounting seat, one end of the mold core is fixedly connected with the first mounting plate, the other end of the mold core is sleeved in the cavity, one end of the mounting seat is abutted against the surface of the first mounting plate, and the other end of the mounting seat is connected with the cavity;

the first mounting plate is provided with the main air hole;

an annular air path is formed between the mold core and the mounting seat;

an injection molding filling space is formed between the mold core and the mold cavity, and one end of the injection molding filling space is provided with the injection molding hole; the main air hole, the annular air passage, the injection molding filling space and the injection molding hole are communicated in sequence to form the back blowing channel.

Further, the mold core is closely sleeved with the mounting seat near the first mounting plate;

two shunt through holes are formed in the mounting seat to form a shunt air path; two main air holes are formed in the first mounting plate, one end of each shunt through hole is correspondingly communicated with the main air holes, and the other end of each shunt through hole is communicated with the annular air passage.

Furthermore, the die also comprises a screw connection pipe, two ends of the screw connection pipe are conical surfaces, and the middle of the screw connection pipe is of a convex ring tubular structure;

the screw connecting pipe is movably sleeved on the mold core, one end of the screw connecting pipe is tightly sleeved with the mold cavity, and the other end of the screw connecting pipe is tightly connected with the mounting seat; a connecting channel is formed between the screw connecting pipe and the mold core, and two ends of the connecting channel are respectively communicated with the annular gas path and the injection molding filling space; the main air hole, the annular air passage, the connecting channel, the injection molding filling space and the injection molding hole are communicated in sequence to form the back blowing channel.

The die core is sleeved on the die core, one end of the die core sleeve is sleeved in the mounting seat, an annular groove body is formed in the screw connection pipe, the other end of the die core sleeve is sleeved in the groove body, and the end face of the die core sleeve abuts against the end face of the groove body to communicate the annular air passage and the connection channel;

a transverse through hole is formed on the core sleeve, an injection tail end air passage is formed between the core sleeve and the core, and the transverse through hole is communicated with the injection tail end air passage;

the main air hole, the shunt through hole, the annular air passage, the transverse through hole, the injection tail end air passage, the connecting channel, the injection molding filling space and the injection molding hole are communicated in sequence to form the back flushing channel.

Furthermore, a first annular groove is formed in the position, located at the transverse through hole, of the inner wall of the core sleeve, and the first annular groove is communicated with the transverse through hole; the core is provided with a longitudinal groove along the axial direction and positioned between two ends of the core sleeve, and a second ring groove is formed at one end of the core positioned in the longitudinal groove; between the second annular groove and the connecting channel, the core and the core sleeve form a gap which is communicated with the connecting channel; the first ring groove, the longitudinal groove, the second ring groove, and the gap form the injection tip gas path.

Further, the cavity comprises a cavity body and a cavity bottom;

and an injection molding port is formed at one end of the cavity bottom and is communicated with the inside of the cavity through the injection molding hole.

In another aspect of the present application, a method for processing PET bottle blanks is provided, which includes the steps of:

arranging a back flushing cleaning mechanism; the back-blowing cleaning mechanism comprises a compressed air pipeline, a control air valve and a compressed air source; the control air valve is arranged on the compressed air pipeline, one end of the compressed air pipeline is communicated with an outlet of an injection molding cavity of the mold, and the other end of the compressed air pipeline is connected with the compressed air source;

and injecting compressed air into the injection molding cavity of the mold through a back flushing cleaning mechanism, so that the compressed air flows from an outlet to an inlet of the injection molding cavity.

Further, before injecting compressed air into the injection molding cavity of the mold, the method further comprises the following steps: the mold is in a mode locking state, PET plastic is quickly injected into the injection molding cavity, and high-pressure air generated in the quick injection molding process is discharged through an outlet of the injection molding cavity.

Further, the mould is the mould in the PET bottle blank processing assembly in any scheme.

For a better understanding and practice, the present application is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a half cross-sectional view in one direction of an exemplary PET bottle preform tooling assembly of the present application;

FIG. 2 is another cross-sectional view in cross-section of an exemplary PET bottle preform tooling assembly of the present application;

FIG. 3 is an enlarged view of a portion of structure A of FIG. 2;

FIG. 4 is a schematic perspective view of an exemplary PET bottle preform processing assembly of the present application.

Detailed Description

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

The utility model provides a less to the mould part damage, the cost is lower and control simple mould cleaning mode is that PET industry needs, for this reason, proposes PET bottle embryo processing subassembly and PET bottle embryo processing method, has the effect of gas-assisted self-cleaning mould, can rationally effectively solve prior art's problem.

FIG. 1 is a half cross-sectional view in one direction of an exemplary PET bottle preform tooling assembly of the present application; FIG. 2 is another cross-sectional view in cross-section of an exemplary PET bottle preform tooling assembly of the present application; FIG. 3 is an enlarged view of a portion of structure A of FIG. 2; FIG. 4 is a schematic perspective view of an exemplary PET bottle preform processing assembly of the present application. Referring to fig. 1-4, an exemplary PET bottle preform processing assembly of the present application includes a mold and a back-blowing cleaning mechanism, wherein the back-blowing cleaning mechanism is connected to the mold;

an injection molding cavity is formed in the mold, a main air hole 21 and an injection molding hole 28 are formed in the mold and positioned at two ends of the injection molding cavity respectively, and the main air hole 21 and the injection molding hole 28 are communicated with the injection molding cavity respectively to form a back flushing channel;

the back-blowing cleaning mechanism comprises a compressed air pipeline (not shown), a control air valve (not shown) and a compressed air source (not shown); the control air valve is installed on the compressed air pipeline, one end of the compressed air pipeline is installed and communicated with the main air hole 21, and the other end of the compressed air pipeline is connected with the compressed air source.

In some preferred embodiments, the mold comprises a first mounting plate 11, a mounting seat 12, a core 13 and a cavity 16, a sleeve cavity penetrating through the mounting seat 12 is formed on the mounting seat 12, the core sleeve 14 is sleeved in the sleeve cavity of the mounting seat 12, one end of the core 13 is tightly connected with the first mounting plate 11, the other end of the core 13 is sleeved in the cavity 16, one end of the mounting seat 12 abuts against the surface of the first mounting plate 11, and the other end of the mounting seat 12 is connected with the cavity 16;

the first mounting plate 11 is formed with the main air hole 21;

an annular air passage 23 is formed between the core 13 and the mounting seat 12;

an injection filling space 27 is formed between the core 13 and the cavity 16, and at one end of the injection filling space 27, the injection hole 28 is formed on the cavity 16; the main air hole 21, the annular air passage 23, the injection molding filling space 27 and the injection molding hole 28 are communicated in sequence to form the blowback channel.

In some preferred embodiments, near the first mounting plate 11, the core 13 is tightly sleeved with the mounting seat 12;

two shunt through holes 22 are formed on the mounting base 12 to form a shunt air path; two main air holes 21 are formed in the first mounting plate 11, one end of each of the branch through holes 22 is correspondingly communicated with the main air hole 21, and the other end of each of the branch through holes 22 is communicated with the annular air passage 23.

In some preferred embodiments, the mold further comprises a screw connection tube 15, wherein both ends of the screw connection tube 15 are tapered, and the middle of the screw connection tube 15 is provided with a convex ring-shaped tubular structure;

the screw connection pipe 15 is movably sleeved on the mold core 13, one end of the screw connection pipe is tightly sleeved with the mold cavity 16, and the other end of the screw connection pipe is tightly connected with the mounting base 12; a connecting channel 26 is formed between the screw connecting pipe 15 and the core 13, and two ends of the connecting channel 26 are respectively communicated with the annular air passage 23 and the injection molding filling space 27; the main air hole 21, the annular air passage 23, the connecting channel 26, the injection molding filling space 27 and the injection molding hole 28 are communicated in sequence to form the blowback channel.

In some preferred embodiments, the core sleeve 14 is further included, the core sleeve 14 is sleeved on the core 13, one end of the core sleeve 14 is sleeved in the mounting seat 12, an annular groove (not labeled) is formed in the screw connection pipe 15, the other end of the core sleeve 14 is sleeved in the groove, and an end face of the core sleeve 14 abuts against an end face of the groove to communicate the annular air passage 23 and the connection channel 26;

a transverse through hole 24 is formed on the core sleeve 14, an injection tail end air passage is formed between the core sleeve 14 and the core 13, and the transverse through hole 24 is communicated with the injection tail end air passage;

the main air hole 21, the shunt through hole 22, the annular air passage 23, the transverse through hole 24, the injection tail end air passage, the connecting channel 26, the injection molding filling space 27 and the injection molding hole 28 are communicated in sequence to form the blowback channel.

In some preferred embodiments, a first annular groove 251 is formed on the inner wall of the core sleeve 14 at the transverse through hole 24, and the first annular groove 251 is communicated with the transverse through hole 24; the core 13 is provided with a longitudinal groove 252 along the axial direction and between two ends of the core sleeve 14, and a second annular groove 253 is formed at one end of the core 13, which is positioned in the longitudinal groove 252; between the second annular groove 253 and the connecting channel 26, the core 13 and the core sleeve 14 form a gap 254, and the gap 254 is communicated with the connecting channel 26; the first ring groove 251, the longitudinal groove 252, the second ring groove 253, and the gap 254 form the injection tip gas passage.

In some preferred embodiments, the cavity 16 includes a cavity body and a cavity bottom;

an injection port 29 is formed at one end of the cavity bottom, and the injection port 29 is communicated with the inside of the cavity 16 through the injection hole 28.

The application discloses an exemplary PET bottle blank processing method, which comprises the following steps:

arranging a back flushing cleaning mechanism; the back-blowing cleaning mechanism comprises a compressed air pipeline, a control air valve and a compressed air source; the control air valve is arranged on the compressed air pipeline, one end of the compressed air pipeline is communicated with an outlet of an injection molding cavity of the mold, and the other end of the compressed air pipeline is connected with the compressed air source;

and injecting compressed air into the injection molding cavity of the mold through a back flushing cleaning mechanism, so that the compressed air flows from an outlet to an inlet of the injection molding cavity.

In some preferred embodiments, before injecting the compressed air into the injection cavity of the mold, the method further comprises the steps of: the mold is in a mode locking state, PET plastic is quickly injected into the injection molding cavity, and high-pressure air generated in the quick injection molding process is discharged through an outlet of the injection molding cavity.

In some preferred embodiments, the mold is the mold in any of the above-mentioned PET bottle preform processing assemblies.

In some examples, the blow-back channel is also an injection channel, injecting from one direction and blow-back from another direction.

The principles of the exemplary PET bottle blank processing assembly and PET bottle blank processing method of the present application:

in the example shown in the attached drawings, the blowback channel includes the main air hole 21, the branch through hole 22, the annular air passage 23, the transverse through hole 24, the injection end air passage, the connecting channel 26, the injection filling space 27, and the injection hole 28, which are sequentially communicated. Meanwhile, the back-blowing channel is also an injection molding channel.

In a normal processing state, the injection molding device is connected with the injection port 29, high-temperature plastic liquid is injected from the injection molding hole 28, the liquid occupies the injection molding filling space 27, air in the injection molding filling space is extruded out, the air passes through the gap 254 of the injection tail end air passage, meanwhile, a small amount of dust and oil water enter spaces such as the transverse through hole 24 and the annular air passage 23 through the gap 254, and the gap 254 and other spaces can be blocked after long-term use. According to the PET bottle blank processing method, once injection molding is carried out in the injection molding cavity of the mold, compressed air is flushed into the main air hole 21 through the back blowing cleaning mechanism, and flows through the back blowing channel to blow off substances such as dust, oil and water from the injection molding port 29, so that the smoothness of next injection molding is guaranteed.

Specifically, a first mounting plate 11, a core 13, a core sleeve 14, a mounting seat 12 and a threaded connecting pipe 15 are respectively mounted on the movable mold; the fixed die is further provided with a second mounting plate, the second mounting plate is sleeved and fixed outside the cavity 16, and the cavity 16 and the second mounting plate are fixedly mounted on the fixed die.

When the mold is in a mold locking state, PET plastic enters the injection molding cavity quickly, high-pressure gas is generated by high-speed and high-pressure injection molding, and the gas flows through the injection molding channel and is finally discharged from the main air hole 21. And after the injection molding is finished, the mold is in a mold opening state, a back-blowing cleaning mechanism is started, and the mold is automatically cleaned. And opening a control air valve at the front end of the main air hole 21, introducing 0.7-0.9MPa of compressed air into the main air hole 21, performing air disturbance on dust and impurities existing at an air passage at the tail end of the injection after passing through a back flushing channel, and blowing the dust and the impurities out of the mold under the action of positive pressure. Therefore, the cleaning is carried out once in each injection molding cycle, so that the mold is ensured to have an efficient exhaust passage, and a good exhaust system is formed. And carrying out back flushing cleaning once every time of injection molding, and controlling the air valve to be closed when the mold is ready to be closed for the next production cycle so as to carry out injection molding. In some examples, the run time for the blowback purge is 2-3 s.

The exemplary PET bottle embryo processing subassembly of this application and PET bottle embryo processing method through reasonable scientific gas circuit design, combines the control unit of control pneumatic valve and system, and the clearance that the periodic compressed air that lets in 7 ~ 8bard gets into the mould promotes through other vibrations and pressure, and the periodic deposit with exhaust passage is cleared up. Keep the smooth of the injection molding channel and maintain the production without stopping.

The PET bottle blank processing assembly and the PET bottle blank processing method further have the following technical bright points: 1) the control principle is simple; 2) the hardware cost is low, and the operation cost is low; 3) the existing mould structure is not damaged; 4) the product quality is guaranteed; 5) the production has the characteristics of wider process window and the like.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.