阅读说明：本技术 制备生物降解薄膜的热吹塑方法及装置 (Hot blow molding method and device for preparing biodegradable film ) 是由 李勇锋 蒋旭玲 白成坡 唐普林 曲世朝 于 2021-08-16 设计创作，主要内容包括：本发明提供了一种制备生物降解薄膜的热吹塑方法及装置,方法包括：将生物降解薄膜送入恒温机构进行恒温处理,使其达到工艺温度；经恒温后,将生物降解薄膜送入热吹塑机构在工艺温度下进行吹胀；对吹胀后的生物降解薄膜进入定型机构,进行缓慢降温,实现定型,完成热吹塑。装置包括恒温机构、热吹塑机构、定型机构和驱动机构；用于实施上述方法实现生物降解薄膜在恒温状态下进行热吹塑,保证生物降解薄膜热吹塑时的受热均匀性,从而避免生物降解薄膜产生褶皱等不良,影响其使用。(The invention provides a hot blow molding method and a device for preparing a biodegradable film, wherein the method comprises the following steps: sending the biodegradable film into a constant temperature mechanism for constant temperature treatment to reach the process temperature; after constant temperature, sending the biodegradable film into a hot blow molding mechanism for blowing at the process temperature; and (4) feeding the blown biodegradable film into a shaping mechanism, slowly cooling, realizing shaping and finishing hot blow molding. The device comprises a constant temperature mechanism, a hot blow molding mechanism, a shaping mechanism and a driving mechanism; the method is used for implementing the thermal blow molding of the biodegradable film under the constant temperature state, and ensures the heating uniformity of the biodegradable film during the thermal blow molding, thereby avoiding the use of the biodegradable film from being influenced by the bad effects such as folds and the like.)

1. A hot blow molding process for preparing a biodegradable film, comprising the steps of:

s100, conveying the biodegradable film into a constant temperature mechanism for constant temperature treatment to enable the biodegradable film to reach a process temperature;

s200, after the temperature is constant, conveying the biodegradable film into a hot blow molding mechanism to blow at the process temperature;

s300, the blown biodegradable film enters a shaping mechanism, and is slowly cooled to realize shaping, so that hot blow molding is completed.

2. The hot blow molding method for preparing biodegradable film according to claim 1, wherein in the hot blow molding process, the process temperature of the hot blow molding is ensured by means of a heater and adjusting the air intake area;

spraying water to the surface of the biodegradable film in a hot blowing mechanism;

in the shaping mechanism, a shaping guide roller is used for shaping the biodegradable film.

3. The hot blow molding method for producing biodegradable films according to claim 2, wherein the temperature control is performed by monitoring the internal temperatures of the constant temperature mechanism, the hot blow molding mechanism and the setting mechanism, controlling the heater and adjusting the air intake area according to the comparison of the internal temperature with the process temperature during the hot blow molding process.

4. The hot blow molding method for preparing biodegradable film according to claim 3, wherein in step 100, a control module PLC and a temperature control circuit are adopted for control, an electric heater HR is adopted for heating, a servo motor M is adopted for adjusting air volume, and the constant temperature mechanism (1) is provided with a temperature sensor; the temperature control circuit comprises an air volume adjusting circuit and a heating control circuit;

the air volume adjusting circuit comprises a starting button SB1, a stopping button SB2, a driver MD, an air circuit breaker QF2 and a temperature signal output terminal TD connected with a temperature sensor; the N terminal and the L terminal of the control module PLC are connected with an alternating current power supply; the I0.0 input terminal of the control module PLC is connected with the PA terminal of the driver MD; the I0.1 input terminal of the control module PLC is connected with the PB terminal of the driver MD; an I0.2 input terminal, an I0.3 input terminal, an I0.4 input terminal and an I0.5 input terminal of the control module PLC are connected with one end of a temperature signal output terminal TD, and the other end of the temperature signal output terminal TD is connected with a PC terminal of the driver MD; the I0.6 input terminal of the control module PLC is connected with one end of a starting button SB1, and the other end of the starting button SB1 is connected with the PC terminal of the driver MD; the I0.7 input terminal of the control module PLC is connected to one end of the stop button SB2, and the other end of the stop button SB2 is connected to the PC terminal of the driver MD; the 1L terminal of the control module PLC is connected with the PC terminal of the driver MD; a 1L terminal of the control module PLC is connected with the positive electrode of the direct-current power supply; the Q0.1 terminal of the control module PLC is connected with the PR terminal of the driver MD; the Q0.2 terminal of the control module PLC is connected with the 2DF terminal of the driver MD; the Q0.3 terminal of the control module PLC is connected with the 3DF terminal of the driver MD; the Q0.4 terminal of the control module PLC is connected with the ES terminal of the driver MD; the Q0.5 terminal of the control module PLC is connected with the JOC terminal of the driver MD; a Q0.7 terminal of the control module PLC is connected with the negative electrode of the direct-current power supply; the DCM1 terminal of the driver MD is connected with the negative pole of the direct current power supply; the DCM2 terminal of the driver MD is connected with the negative pole of the direct current power supply; the RST terminal of the driver MD is connected with the output end of the QF, and the input end of the QF is connected with a three-phase alternating-current power supply; a UVW terminal of the driver MD is connected with a power supply input end of the servo motor M;

the heating control circuit comprises an air circuit breaker QF1, a relay K1 and a protector P1, one end of a coil of the relay K1 is connected with a Q0.0 terminal of a control module PLC, the other end of the coil of the relay K1 is connected with the negative electrode of a direct-current power supply, and the electric heater HR is connected with the power supply through normally open contacts of the air circuit breaker QF1 and the relay K1; the air circuit breaker QF1 is grounded through a protector P1.

5. The hot-blow molding method for manufacturing a biodegradable film according to claim 1, wherein in step 100, a constant temperature control model is established in association with the rotation speed of the driving means by detecting the temperature at the inlet of the biodegradable film of the constant temperature means; and predicting the heating demand of the constant temperature mechanism by using the constant temperature control model, and controlling the constant temperature heater by using the heating demand.

6. A hot blowing device for preparing a biodegradable film is characterized by comprising a constant temperature mechanism (1), a hot blowing mechanism (2), a shaping mechanism (3) and a driving mechanism; wherein the content of the first and second substances,

the constant temperature mechanism (1) is internally provided with a constant temperature heater (12) for carrying out constant temperature treatment on the biodegradable film;

the hot blow molding mechanism (2) is used for blowing up the biodegradable film (4);

the shaping mechanism (3) is used for shaping the blown biodegradable film (4);

the driving mechanism drives the biodegradable film (4) to sequentially pass through the constant temperature mechanism (1), the hot blowing mechanism (2) and the shaping mechanism (3) to complete hot blowing.

7. The hot blowing apparatus for preparing biodegradable film according to claim 6, wherein said thermostatic mechanism (1) further comprises a thermostatic sleeve (11) and an air volume adjusting assembly (13), said air volume adjusting assembly (13) being plural and respectively disposed at the top and bottom of the thermostatic mechanism (1), the hot blowing mechanism (2) and the shaping mechanism (3); the air volume adjusting assembly (13) comprises an air inlet pipe (131), an air inlet baffle plate (133) and a screw rod motor (134), wherein the air inlet baffle plate (133) is positioned at an air inlet (132) of the air inlet pipe (131), and the area of the air inlet baffle plate (133) is not smaller than that of the air inlet (132); the screw rod motor (134) is suitable for driving the air inlet baffle (133) to move so as to change the air inlet area of the air inlet (132);

the hot blow molding mechanism (2) comprises a blowing assembly and a hot blow molding heater (22); the inflation assembly comprises an inflation sleeve (211) and spray holes (212) uniformly distributed on the inner wall of the inflation sleeve (211); the water in the interlayer of the inflation sleeve (211) is sprayed out to the surface of the biodegradable film (4) through the spraying holes (212);

the shaping mechanism (3) comprises a shaping guide roller (31) and a shaping heater (32); the driving mechanism is used for driving the shaping guide roller (31) to drive the biodegradable film (4) to enter the shaping mechanism (3).

8. The hot blow molding apparatus for preparing biodegradable film according to claim 7, further comprising a main control module connected to the screw motor (134), the constant temperature heater (12), the hot blow molding heater (22) and the setting heater (32), respectively;

temperature sensors are arranged in the constant temperature mechanism (1), the hot blowing mechanism (2) and the shaping mechanism (3) to monitor the internal temperatures of the constant temperature mechanism (1), the hot blowing mechanism (2) and the shaping mechanism (3) respectively;

the main control module is electrically connected with each temperature sensor to receive the internal temperatures of the constant temperature mechanism (1), the hot blowing mechanism (2) and the shaping mechanism (3);

the main control module respectively controls the screw rod motor (134), the constant temperature heater (12), the hot blow molding heater (22) and the shaping heater (32) according to the comparison of the internal temperature and the process temperature.

9. The hot blowing apparatus for preparing biodegradable film according to claim 8, wherein the main control module is PLC control module, the constant temperature heater (12) is HR electric heater, the screw motor (134) is M servo motor, the constant temperature mechanism (1) is provided with a temperature sensor and a temperature control circuit; the temperature control circuit comprises an air volume adjusting circuit and a heating control circuit;

the air volume adjusting circuit comprises a starting button SB1, a stopping button SB2, a driver MD, an air circuit breaker QF2 and a temperature signal output terminal TD connected with a temperature sensor; the N terminal and the L terminal of the control module PLC are connected with an alternating current power supply; the I0.0 input terminal of the control module PLC is connected with the PA terminal of the driver MD; the I0.1 input terminal of the control module PLC is connected with the PB terminal of the driver MD; an I0.2 input terminal, an I0.3 input terminal, an I0.4 input terminal and an I0.5 input terminal of the control module PLC are connected with one end of a temperature signal output terminal TD, and the other end of the temperature signal output terminal TD is connected with a PC terminal of the driver MD; the I0.6 input terminal of the control module PLC is connected with one end of a starting button SB1, and the other end of the starting button SB1 is connected with the PC terminal of the driver MD; the I0.7 input terminal of the control module PLC is connected to one end of the stop button SB2, and the other end of the stop button SB2 is connected to the PC terminal of the driver MD; the 1L terminal of the control module PLC is connected with the PC terminal of the driver MD; a 1L terminal of the control module PLC is connected with the positive electrode of the direct-current power supply; the Q0.1 terminal of the control module PLC is connected with the PR terminal of the driver MD; the Q0.2 terminal of the control module PLC is connected with the 2DF terminal of the driver MD; the Q0.3 terminal of the control module PLC is connected with the 3DF terminal of the driver MD; the Q0.4 terminal of the control module PLC is connected with the ES terminal of the driver MD; the Q0.5 terminal of the control module PLC is connected with the JOC terminal of the driver MD; a Q0.7 terminal of the control module PLC is connected with the negative electrode of the direct-current power supply; the DCM1 terminal of the driver MD is connected with the negative pole of the direct current power supply; the DCM2 terminal of the driver MD is connected with the negative pole of the direct current power supply; the RST terminal of the driver MD is connected with the output end of the QF, and the input end of the QF is connected with a three-phase alternating-current power supply; a UVW terminal of the driver MD is connected with a power supply input end of the servo motor M;

the heating control circuit comprises an air circuit breaker QF1, a relay K1 and a protector P1, one end of a coil of the relay K1 is connected with a Q0.0 terminal of a control module PLC, the other end of the coil of the relay K1 is connected with the negative electrode of a direct-current power supply, and the electric heater HR is connected with the power supply through normally open contacts of the air circuit breaker QF1 and the relay K1; the air circuit breaker QF1 is grounded through a protector P1.

10. The hot-blowing apparatus for preparing biodegradable film according to claim 6, wherein the main control module is connected with an infrared temperature sensor installed at a biodegradable film inlet of the thermostatic mechanism;

the constant temperature control module is arranged in the main control module and used for predicting the heating demand of the constant temperature mechanism and controlling the constant temperature heater according to the heating demand.

Technical Field

The invention relates to the technical field of biodegradable film preparation, in particular to a hot blow molding method and a hot blow molding device for preparing a biodegradable film.

Background

Biodegradable film refers to a type of plastic film that can be degraded by the action of microorganisms under natural environmental conditions. After the plastic film is corroded by microorganisms such as bacteria, fungi and actinomycetes, the polymer components are hydrolyzed, ionized or protonated due to the growth of cells, and are mechanically destroyed and split into oligomer fragments. Enzymes secreted by fungi or bacteria break down or oxidatively degrade water soluble polymers into water soluble fragments, generating new small molecule compounds, until finally breaking down into C02 and H20.

In the preparation process of the biodegradable film, the film is often required to be subjected to hot blow molding so as to improve the performance of the biodegradable film; the conventional hot blowing device always keeps the internal temperature at the hot blowing temperature, and when a biodegradable film enters the device, the biodegradable film is heated unevenly, so that the film is easy to shrink to generate wrinkles, and the use is influenced. The conventional preparation process often adopts: hot blow molding; a process method for shaping at natural environment temperature.

Disclosure of Invention

In order to solve the technical problems, the invention provides a hot blow molding method for preparing a biodegradable film, which comprises the following steps:

s100, conveying the biodegradable film into a constant temperature mechanism for constant temperature treatment to enable the biodegradable film to reach a process temperature;

s200, after the temperature is constant, conveying the biodegradable film into a hot blow molding mechanism to blow at the process temperature;

s300, the blown biodegradable film enters a shaping mechanism, and is slowly cooled to realize shaping, so that hot blow molding is completed.

Optionally, in the hot blow molding process, the process temperature of hot blow molding is ensured by a heater and a mode of adjusting the air inlet area;

spraying water to the surface of the biodegradable film in a hot blowing mechanism;

in the shaping mechanism, a shaping guide roller is used for shaping the biodegradable film.

Optionally, in the hot blow molding process, the heater is controlled and the air inlet area is adjusted to control the temperature according to the comparison between the internal temperature and the process temperature by monitoring the internal temperature of the constant temperature mechanism, the hot blow molding mechanism and the shaping mechanism.

Optionally, in step 100, a control module PLC and a temperature control circuit are adopted for control, an electric heater HR is adopted for heating, a servo motor M is adopted for adjusting air volume, and the constant temperature mechanism is provided with a temperature sensor; the temperature control circuit comprises an air volume adjusting circuit and a heating control circuit;

the air volume adjusting circuit comprises a starting button SB1, a stopping button SB2, a driver MD, an air circuit breaker QF2 and a temperature signal output terminal TD connected with a temperature sensor; the N terminal and the L terminal of the control module PLC are connected with an alternating current power supply; the I0.0 input terminal of the control module PLC is connected with the PA terminal of the driver MD; the I0.1 input terminal of the control module PLC is connected with the PB terminal of the driver MD; an I0.2 input terminal, an I0.3 input terminal, an I0.4 input terminal and an I0.5 input terminal of the control module PLC are connected with one end of a temperature signal output terminal TD, and the other end of the temperature signal output terminal TD is connected with a PC terminal of the driver MD; the I0.6 input terminal of the control module PLC is connected with one end of a starting button SB1, and the other end of the starting button SB1 is connected with the PC terminal of the driver MD; the I0.7 input terminal of the control module PLC is connected to one end of the stop button SB2, and the other end of the stop button SB2 is connected to the PC terminal of the driver MD; the 1L terminal of the control module PLC is connected with the PC terminal of the driver MD; a 1L terminal of the control module PLC is connected with the positive electrode of the direct-current power supply; the Q0.1 terminal of the control module PLC is connected with the PR terminal of the driver MD; the Q0.2 terminal of the control module PLC is connected with the 2DF terminal of the driver MD; the Q0.3 terminal of the control module PLC is connected with the 3DF terminal of the driver MD; the Q0.4 terminal of the control module PLC is connected with the ES terminal of the driver MD; the Q0.5 terminal of the control module PLC is connected with the JOC terminal of the driver MD; a Q0.7 terminal of the control module PLC is connected with the negative electrode of the direct-current power supply; the DCM1 terminal of the driver MD is connected with the negative pole of the direct current power supply; the DCM2 terminal of the driver MD is connected with the negative pole of the direct current power supply; the RST terminal of the driver MD is connected with the output end of the QF, and the input end of the QF is connected with a three-phase alternating-current power supply; a UVW terminal of the driver MD is connected with a power supply input end of the servo motor M;

the heating control circuit comprises an air circuit breaker QF1, a relay K1 and a protector P1, one end of a coil of the relay K1 is connected with a Q0.0 terminal of a control module PLC, the other end of the coil of the relay K1 is connected with the negative electrode of a direct-current power supply, and the electric heater HR is connected with the power supply through normally open contacts of the air circuit breaker QF1 and the relay K1; the air circuit breaker QF1 is grounded through a protector P1.

Optionally, in step 100, a constant temperature control model associated with the rotation speed of the driving mechanism is established, and the temperature at the inlet of the biodegradable film of the constant temperature mechanism is detected; and predicting the heating demand of the constant temperature mechanism by using the constant temperature control model, and controlling the constant temperature heater by using the heating demand.

The invention also provides a hot blow molding device for preparing the biodegradable film, which comprises a constant temperature mechanism, a hot blow molding mechanism, a shaping mechanism and a driving mechanism; wherein the content of the first and second substances,

the constant temperature mechanism is internally provided with a constant temperature heater for carrying out constant temperature treatment on the biodegradable film;

the hot blowing mechanism is used for blowing the biodegradable film;

the shaping mechanism is used for shaping the blown biodegradable film;

the driving mechanism drives the biodegradable film to sequentially pass through the constant temperature mechanism, the hot blow molding mechanism and the shaping mechanism to complete hot blow molding.

Optionally, the constant temperature mechanism further comprises a plurality of constant temperature sleeves and air volume adjusting assemblies, and the air volume adjusting assemblies are arranged at the top and the bottom of the constant temperature mechanism, the hot blow molding mechanism and the shaping mechanism respectively; the air volume adjusting assembly comprises an air inlet pipe, an air inlet baffle plate and a screw rod motor, wherein the air inlet baffle plate is positioned at an air inlet of the air inlet pipe; the screw rod motor is suitable for driving the air inlet baffle to move so as to change the air inlet area of the air inlet;

the hot blowing mechanism comprises a blowing assembly and a hot blowing heater; the inflation assembly comprises an inflation sleeve and spraying holes which are uniformly distributed on the inner wall of the inflation sleeve; the water in the interlayer of the inflation sleeve is sprayed out to the surface of the biodegradable film through the spraying holes;

the shaping mechanism comprises a shaping guide roller and a shaping heater; the driving mechanism is used for driving the shaping guide roller to drive the biodegradable film to enter the shaping mechanism.

Optionally, the hot blow molding machine further comprises a main control module, wherein the main control module is respectively connected with the screw motor, the constant temperature heater, the hot blow molding heater and the shaping heater;

temperature sensors are arranged in the constant temperature mechanism, the hot blow molding mechanism and the shaping mechanism to monitor the internal temperatures of the constant temperature mechanism, the hot blow molding mechanism and the shaping mechanism respectively;

the main control module is electrically connected with each temperature sensor so as to receive the internal temperatures of the constant temperature mechanism, the hot blow molding mechanism and the shaping mechanism;

and the main control module respectively controls the screw motor, the constant temperature heater, the hot blow molding heater and the shaping heater according to the comparison between the internal temperature and the process temperature.

Optionally, the main control module adopts a control module PLC, the constant temperature heater adopts an electric heater HR, the lead screw motor adopts a servo motor M, and the constant temperature mechanism is provided with a temperature sensor and a temperature control circuit; the temperature control circuit comprises an air volume adjusting circuit and a heating control circuit;

the air volume adjusting circuit comprises a starting button SB1, a stopping button SB2, a driver MD, an air circuit breaker QF2 and a temperature signal output terminal TD connected with a temperature sensor; the N terminal and the L terminal of the control module PLC are connected with an alternating current power supply; the I0.0 input terminal of the control module PLC is connected with the PA terminal of the driver MD; the I0.1 input terminal of the control module PLC is connected with the PB terminal of the driver MD; an I0.2 input terminal, an I0.3 input terminal, an I0.4 input terminal and an I0.5 input terminal of the control module PLC are connected with one end of a temperature signal output terminal TD, and the other end of the temperature signal output terminal TD is connected with a PC terminal of the driver MD; the I0.6 input terminal of the control module PLC is connected with one end of a starting button SB1, and the other end of the starting button SB1 is connected with the PC terminal of the driver MD; the I0.7 input terminal of the control module PLC is connected to one end of the stop button SB2, and the other end of the stop button SB2 is connected to the PC terminal of the driver MD; the 1L terminal of the control module PLC is connected with the PC terminal of the driver MD; a 1L terminal of the control module PLC is connected with the positive electrode of the direct-current power supply; the Q0.1 terminal of the control module PLC is connected with the PR terminal of the driver MD; the Q0.2 terminal of the control module PLC is connected with the 2DF terminal of the driver MD; the Q0.3 terminal of the control module PLC is connected with the 3DF terminal of the driver MD; the Q0.4 terminal of the control module PLC is connected with the ES terminal of the driver MD; the Q0.5 terminal of the control module PLC is connected with the JOC terminal of the driver MD; a Q0.7 terminal of the control module PLC is connected with the negative electrode of the direct-current power supply; the DCM1 terminal of the driver MD is connected with the negative pole of the direct current power supply; the DCM2 terminal of the driver MD is connected with the negative pole of the direct current power supply; the RST terminal of the driver MD is connected with the output end of the QF, and the input end of the QF is connected with a three-phase alternating-current power supply; a UVW terminal of the driver MD is connected with a power supply input end of the servo motor M;

the heating control circuit comprises an air circuit breaker QF1, a relay K1 and a protector P1, one end of a coil of the relay K1 is connected with a Q0.0 terminal of a control module PLC, the other end of the coil of the relay K1 is connected with the negative electrode of a direct-current power supply, and the electric heater HR is connected with the power supply through normally open contacts of the air circuit breaker QF1 and the relay K1; the air circuit breaker QF1 is grounded through a protector P1.

Optionally, the main control module is connected with an infrared temperature sensor, and the infrared temperature sensor is installed at a biodegradable film inlet of the constant temperature mechanism;

the constant temperature control module is arranged in the main control module and used for predicting the heating demand of the constant temperature mechanism and controlling the constant temperature heater according to the heating demand.

According to the hot blow molding method and the hot blow molding device for preparing the biodegradable film, the biodegradable film is sent into the constant temperature mechanism by the driving mechanism to be subjected to constant temperature treatment so as to reach the process temperature, and then is sent into the hot blow molding mechanism to be blown at the process temperature, so that the biodegradable film is prevented from directly entering the hot blow molding machine to be heated unevenly; the blown biodegradable film enters a shaping mechanism, the biodegradable film is slowly cooled, the phenomenon that the stress difference in the film is large due to shock cooling and shock heating of the biodegradable film is prevented, shaping is realized, and finally hot blow molding of the biodegradable film is completed; this scheme realizes through constant temperature mechanism that biodegradable film carries out hot blow molding under the constant temperature state, the homogeneity of being heated when guaranteeing biodegradable film hot blow molding to avoid biodegradable film to produce harmfully such as fold, influence its use.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a flow chart of a hot blow molding method for preparing a biodegradable film according to an embodiment of the present invention;

FIG. 2 is a schematic view of a hot blow molding apparatus for preparing a biodegradable film according to an embodiment of the present invention;

FIG. 3 is a schematic view of an embodiment of an air volume adjusting assembly used in the hot blowing apparatus for preparing biodegradable film according to the present invention;

FIG. 4 is a schematic view of an embodiment of the thermostatic control employed in the hot blow molding apparatus for preparing biodegradable films according to the present invention;

FIG. 5 is a schematic view of an embodiment of a temperature control circuit used in the hot blowing apparatus for preparing biodegradable film according to the present invention.

In the figure:

1-a constant temperature mechanism; 11-a thermostatic sleeve; 12-constant temperature heater; 13-an air volume adjusting component; 131-an air inlet pipe; 132-an air inlet; 133-air intake baffle; 134-screw motor;

2-a hot blow molding mechanism; 211-an inflation sleeve; 212-spray holes; 22-hot blow moulding heater;

3-a shaping mechanism; 31-a shaping guide roller; 32-a setting heater;

4-biodegradable film.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

As shown in fig. 1, an embodiment of the present invention provides a hot blow molding method for preparing a biodegradable film, including the steps of:

s100, conveying the biodegradable film into a constant temperature mechanism for constant temperature treatment to enable the biodegradable film to reach a process temperature;

s200, after the temperature is constant, conveying the biodegradable film into a hot blow molding mechanism to blow at the process temperature;

s300, the blown biodegradable film enters a shaping mechanism, and is slowly cooled to realize shaping, so that hot blow molding is completed.

The working principle and the beneficial effects of the technical scheme are as follows: according to the scheme, the biodegradable film is sent into the constant temperature mechanism to be subjected to constant temperature treatment so as to reach the process temperature, and then the biodegradable film is sent into the hot blowing mechanism to be blown at the process temperature, so that the biodegradable film is prevented from directly entering the hot blowing machine to be heated unevenly; the blown biodegradable film enters a shaping mechanism, the biodegradable film is slowly cooled, the phenomenon that the stress difference in the film is large due to shock cooling and shock heating of the biodegradable film is prevented, shaping is realized, and finally hot blow molding of the biodegradable film is completed; this scheme realizes through constant temperature mechanism that biodegradable film carries out hot blow molding under the constant temperature state, the homogeneity of being heated when guaranteeing biodegradable film hot blow molding to avoid biodegradable film to produce harmfully such as fold, influence its use.

In one embodiment, during hot blow molding, the process temperature of hot blow molding is ensured by a heater and a mode of adjusting the air inlet area;

spraying water to the surface of the biodegradable film in a hot blowing mechanism;

in the shaping mechanism, a shaping guide roller is used for shaping the biodegradable film.

The working principle and the beneficial effects of the technical scheme are as follows: this scheme guarantees the process temperature of hot-blowing through heater and the mode of adjusting the air inlet area, make the temperature evenly distributed in the constant temperature mechanism, strengthen biodegradable film hot-blowing's the homogeneity of being heated, the guarantee carries out hot-blowing under the constant temperature state, in hot-blowing mechanism, water spray to biodegradable film's surface, the water of constant temperature state is adopted in the water spray, form the constant temperature water film on biodegradable film surface, can further strengthen hot homogeneity, in the typical setting mechanism, carry out biodegradable film design processing with the design deflector roll, thickness dimension after can the accurate control design, guarantee thickness uniformity, and the product quality is improved.

In one embodiment, during the hot blowing process, the temperature is controlled by monitoring the internal temperatures of the constant temperature mechanism, the hot blowing mechanism and the shaping mechanism, controlling the heater and adjusting the air inlet area according to the comparison of the internal temperature and the process temperature.

The working principle and the beneficial effects of the technical scheme are as follows: this scheme is according to monitoring received inside temperature value, and the heating temperature of control corresponding heater, the corresponding lead screw motor of simultaneous control drives the big or small regulation air inlet area of corresponding air inlet baffle adjustment air intake, realizes controlling respectively the temperature in constant temperature mechanism, hot blow molding mechanism, the setting mechanism to make biodegradable film be heated evenly.

In one embodiment, in step 100, a control module PLC and a temperature control circuit are adopted for control, an electric heater HR is adopted for heating, a servo motor M is adopted for adjusting air volume, and the constant temperature mechanism 1 is provided with a temperature sensor; the temperature control circuit comprises an air volume adjusting circuit and a heating control circuit;

the air volume adjusting circuit comprises a starting button SB1, a stopping button SB2, a driver MD, an air circuit breaker QF2 and a temperature signal output terminal TD connected with a temperature sensor; the N terminal and the L terminal of the control module PLC are connected with an alternating current power supply; the I0.0 input terminal of the control module PLC is connected with the PA terminal of the driver MD; the I0.1 input terminal of the control module PLC is connected with the PB terminal of the driver MD; an I0.2 input terminal, an I0.3 input terminal, an I0.4 input terminal and an I0.5 input terminal of the control module PLC are connected with one end of a temperature signal output terminal TD, and the other end of the temperature signal output terminal TD is connected with a PC terminal of the driver MD; the I0.6 input terminal of the control module PLC is connected with one end of a starting button SB1, and the other end of the starting button SB1 is connected with the PC terminal of the driver MD; the I0.7 input terminal of the control module PLC is connected to one end of the stop button SB2, and the other end of the stop button SB2 is connected to the PC terminal of the driver MD; the 1L terminal of the control module PLC is connected with the PC terminal of the driver MD; a 1L terminal of the control module PLC is connected with the positive electrode of the direct-current power supply; the Q0.1 terminal of the control module PLC is connected with the PR terminal of the driver MD; the Q0.2 terminal of the control module PLC is connected with the 2DF terminal of the driver MD; the Q0.3 terminal of the control module PLC is connected with the 3DF terminal of the driver MD; the Q0.4 terminal of the control module PLC is connected with the ES terminal of the driver MD; the Q0.5 terminal of the control module PLC is connected with the JOC terminal of the driver MD; a Q0.7 terminal of the control module PLC is connected with the negative electrode of the direct-current power supply; the DCM1 terminal of the driver MD is connected with the negative pole of the direct current power supply; the DCM2 terminal of the driver MD is connected with the negative pole of the direct current power supply; the RST terminal of the driver MD is connected with the output end of the QF, and the input end of the QF is connected with a three-phase alternating-current power supply; a UVW terminal of the driver MD is connected with a power supply input end of the servo motor M;

the heating control circuit comprises an air circuit breaker QF1, a relay K1 and a protector P1, one end of a coil of the relay K1 is connected with a Q0.0 terminal of a control module PLC, the other end of the coil of the relay K1 is connected with the negative electrode of a direct-current power supply, and the electric heater HR is connected with the power supply through normally open contacts of the air circuit breaker QF1 and the relay K1; the air circuit breaker QF1 is grounded through a protector P1.

The working principle of the technical scheme is as follows: the power supply of the control module PLC in the scheme adopts DC24V, the cathode of the direct current power supply is the cathode of a 24V direct current power supply, when the internal temperature of the thermostatic mechanism measured by the temperature sensor is lower than the set process temperature, the temperature sensor transmits a 24V positive voltage signal to the input end X1 of the control module PLC, when the internal temperature of the thermostatic mechanism measured by the temperature sensor is equal to the set process temperature, the temperature sensor transmits a 24V positive voltage signal to the input end X2 of the PLC, and the electric heater HR is started to heat when the internal temperature of the thermostatic mechanism is lower than the set process temperature through the logic program control of the control module PLC; when the internal temperature reaches the process temperature, the electric heater HR is turned off; the circulation is repeated in such a way, so that the constant temperature in the constant temperature mechanism is ensured; the air circuit breaker QF1 with leakage current protection device is used to protect the heating control circuit from overcurrent and leakage current faults due to various possible causes. One end of the air circuit breaker QF1 can be connected with a live wire end L of an alternating current 220V power supply, the other end of the air circuit breaker QF1 is connected with one end of a pair of normally open contacts of the relay K1, the other end of the normally open contact of the relay K1 is connected with one end of the electric heater HR, and the other end of the electric heater HR is connected with a zero wire end N of the alternating current 220V power supply; the protector P1 can adopt an arrester or an overvoltage protector for overvoltage protection of the electric heating loop, one end of the protector P1 is connected with a metal casing (the metal casing is grounded), and the other end of the protector P1 is connected with a live wire end L of a 220V alternating current power supply; the air circuit breaker Q1 with the leakage current protection device is used, so that in case that a worker touches a charged part in normal work, the leakage current protection device in the air circuit breaker acts to break a circuit of the circuit breaker, and personal safety is protected; meanwhile, when the circuit overcurrent caused by various possible faults damages the insulating material and generates leakage current, the overcurrent protection device of the circuit breaker acts to automatically break the circuit of the circuit breaker, so that equipment and a person are protected. The lightning arrester or the overvoltage protector P1 can prevent the electric equipment from being burnt out and leakage accidents caused by the overvoltage of the power supply, thereby protecting the equipment and personal safety; because the output end of the temperature sensor has 4-bit output, the detected temperature can be converted into 4-bit digital output through the self-contained A/D converter, the output value can reach 4 powers of 2, namely 64, and the temperature control is only to control and adjust a variable range from-5 ℃ to positive 5 ℃ (the adjusting range greatly exceeds the range which needs to be controlled actually) when the temperature reaches the set process temperature value, so that the process temperature value tends to be set more, dynamic balance is achieved, the temperature less than 10 ℃ is divided into 64 equal parts, namely, the difference between each output value and the temperature corresponding to the adjacent output value is 1/6.4 ℃, and an analog-to-digital conversion precision calculation method comprises the following steps:

d＝(Q_die/q_Bit)×100％

In the above formula, d is the analog-to-digital conversion precision, Q mode is the analog quantity range, and Q bit is the digital conversion quantity digit;

through the temperature digital value output by the sensor, the control module PLC sends an instruction to the driver through preset program operation to control the rotation direction and the rotation amount of the servo motor, so that the fan is driven to open and close, and the process temperature is adjusted and controlled.

The beneficial effects of the above technical scheme are: by using the air circuit breaker QF1 with the leakage current protection device, the leakage protection device in the air circuit breaker QF1 acts to disconnect the circuit of the air circuit breaker QF1 and protect personal safety in case that a worker contacts an electrified part in normal work; meanwhile, when the circuit overcurrent caused by various possible faults damages the insulating material and generates leakage current, the overcurrent protection device of the air circuit breaker QF1 acts to automatically disconnect the circuit of the air circuit breaker QF1, so that equipment and personnel are protected; the protector P1 adopts a lightning arrester or an overvoltage protector, so that the burning out of electric equipment and the occurrence of electric leakage accidents caused by the overvoltage of a power supply can be prevented, and the equipment and the personal safety are protected; the use of the control module PLC can conveniently integrate the heating control and the shaping control together, thereby leading the whole circuit to be fewer and simple in devices; the whole circuit is simple, the fault point is reduced to the necessary minimum limit, so that the circuit can more reliably realize the use purpose, and the heating control and the shaping control can be conveniently integrated together by using the control module PLC, so that the whole circuit is simple and has few devices; the temperature sensor can effectively ensure the temperature precision of the temperature output digital switching value output; and the control module PLC is matched with the driver and the servo motor for more accurate temperature control.

In one embodiment, in step 100, establishing a constant temperature control model related to the rotation speed of the driving mechanism by detecting the temperature at the inlet of the biodegradable film of the constant temperature mechanism; and predicting the heating demand of the constant temperature mechanism by using the constant temperature control model, and controlling the constant temperature heater by using the heating demand.

The working principle and the beneficial effects of the technical scheme are as follows: this scheme is through establishing the constant temperature control model associated with actuating mechanism rotational speed, detect the biodegradable film entrance temperature of constant temperature mechanism, with the heating demand of constant temperature control model prediction constant temperature mechanism, and with heating demand control constant temperature heater, thereby realize the accurate control of the inside temperature of constant temperature mechanism, the required technology of guarantee biodegradable film hot blowing meets the needs, can also prevent on the one hand that the rate of heating from arousing the temperature distribution inequality at the excessive speed, on the other hand prevents that the heating from excessively influencing product quality.

As shown in fig. 2, an embodiment of the present invention provides a hot blow molding apparatus for preparing a biodegradable film, including a constant temperature mechanism 1, a hot blow molding mechanism 2, a shaping mechanism 3, and a driving mechanism; wherein the content of the first and second substances,

the constant temperature mechanism 1 is internally provided with a constant temperature heater 12 for carrying out constant temperature treatment on the biodegradable film;

the hot blow molding mechanism 2 is used for blowing up the biodegradable film 4;

the shaping mechanism 3 is used for shaping the blown biodegradable film 4;

the driving mechanism drives the biodegradable film 4 to sequentially pass through the constant temperature mechanism 1, the hot blowing mechanism 2 and the shaping mechanism 3, and then hot blowing is completed.

The working principle and the beneficial effects of the technical scheme are as follows: according to the scheme, the constant temperature mechanism, the hot blowing mechanism, the shaping mechanism and the driving mechanism are arranged, the biodegradable film is sent into the constant temperature mechanism by the driving mechanism to be subjected to constant temperature treatment so as to reach the process temperature, then the biodegradable film is sent into the hot blowing mechanism to be blown at the process temperature, and the biodegradable film is prevented from directly entering the hot blowing machine so as to be unevenly heated; the blown biodegradable film enters a shaping mechanism, the biodegradable film is slowly cooled, the phenomenon that the stress difference in the film is large due to shock cooling and shock heating of the biodegradable film is prevented, shaping is realized, and finally hot blow molding of the biodegradable film is completed; this scheme realizes through constant temperature mechanism that biodegradable film carries out hot blow molding under the constant temperature state, the homogeneity of being heated when guaranteeing biodegradable film hot blow molding to avoid biodegradable film to produce harmfully such as fold, influence its use.

In one embodiment, as shown in fig. 2 and 3, the thermostatic mechanism 1 further includes a thermostatic sleeve 11 and an air volume adjusting assembly 13, wherein the air volume adjusting assembly 13 is provided in plurality and is respectively disposed at the top and the bottom of the thermostatic mechanism 1, the hot blowing mechanism 2 and the shaping mechanism 3; the air volume adjusting assembly 13 comprises an air inlet pipe 131, an air inlet baffle 133 and a screw rod motor 134, wherein the air inlet baffle 133 is positioned at an air inlet 132 of the air inlet pipe 131, and the area of the air inlet baffle 133 is not smaller than that of the air inlet 132; the screw rod motor 134 is adapted to drive the air inlet baffle 133 to move so as to change the air inlet area of the air inlet 132;

the hot blow molding mechanism 2 comprises a blowing assembly and a hot blow molding heater 22; the inflation assembly comprises an inflation sleeve 211 and spray holes 212 uniformly distributed on the inner wall of the inflation sleeve 211; the water in the interlayer of the inflation sleeve 211 is sprayed out to the surface of the biodegradable film 4 through the spraying holes 212;

the shaping mechanism 3 comprises a shaping guide roller 31 and a shaping heater 32; the driving mechanism is used for driving the shaping guide roller 31 to drive the biodegradable film 4 to enter the shaping mechanism 3.

The working principle and the beneficial effects of the technical scheme are as follows: the scheme ensures the process temperature of hot blow molding by a heater and a mode of adjusting the air inlet area, ensures the uniform distribution of the temperature in the constant temperature mechanism, enhances the heating uniformity of the hot blow molding of the biodegradable film, the screw motor drives the air inlet baffle to move so as to change the size of an air inlet and change the air inlet amount, further ensures the uniform distribution of the temperature in the constant temperature mechanism, and ensures the hot blow molding in a constant temperature state, the constant temperature sleeve and the blowing sleeve can be horizontal or vertical, in the hot blow molding mechanism, the hot blow molding heater and the air amount adjusting component control the uniform distribution of the temperature in the hot blow molding mechanism together so as to ensure that the water in the interlayer of the blowing sleeve is in the constant temperature state, the water is sprayed to the surface of the biodegradable film, the water in the constant temperature state is used by spraying, a constant temperature water film is formed on the surface of the biodegradable film, the thermal uniformity can be further enhanced, in the shaping mechanism, the shaping guide roller is used for shaping the biodegradable film, so that the thickness size after shaping can be accurately controlled, the thickness consistency is guaranteed, and the product quality is improved.

In one embodiment, as shown in FIG. 4, further comprises a master control module; the main control module is respectively connected with the screw motor 134, the constant temperature heater 12, the hot blow molding heater 22 and the shaping heater 32;

temperature sensors are arranged in the constant temperature mechanism 1, the hot blowing mechanism 2 and the shaping mechanism 3 to monitor the internal temperatures of the constant temperature mechanism 1, the hot blowing mechanism 2 and the shaping mechanism 3 respectively;

the main control module is electrically connected with each temperature sensor so as to receive the internal temperatures of the constant temperature mechanism 1, the hot blow molding mechanism 2 and the shaping mechanism 3;

the main control module controls the screw motor 134, the constant temperature heater 12, the hot blow molding heater 22 and the setting heater 32 according to the comparison of the internal temperature and the process temperature.

The working principle and the beneficial effects of the technical scheme are as follows: in the scheme, the main control module controls the heating temperature of the corresponding heater according to the received temperature value, and simultaneously controls the corresponding screw rod motor to drive the corresponding air inlet baffle plate to adjust the size of the air inlet, so that the temperatures in the constant temperature mechanism, the hot blow molding mechanism and the shaping mechanism are respectively controlled, the biodegradable film is uniformly heated, and the main control module can be but not limited to S7-300 series PLC; the temperature sensor may be, but is not limited to, a pt100 temperature sensor.

In one embodiment, as shown in fig. 5, the main control module adopts a control module PLC, the thermostatic heater 12 adopts an electric heater HR, the screw motor 134 adopts a servo motor M, and the thermostatic mechanism 1 is provided with a temperature sensor and a temperature control circuit; the temperature control circuit comprises an air volume adjusting circuit and a heating control circuit;

the air volume adjusting circuit comprises a starting button SB1, a stopping button SB2, a driver MD, an air circuit breaker QF2 and a temperature signal output terminal TD connected with a temperature sensor; the N terminal and the L terminal of the control module PLC are connected with an alternating current power supply; the I0.0 input terminal of the control module PLC is connected with the PA terminal of the driver MD; the I0.1 input terminal of the control module PLC is connected with the PB terminal of the driver MD; an I0.2 input terminal, an I0.3 input terminal, an I0.4 input terminal and an I0.5 input terminal of the control module PLC are connected with one end of a temperature signal output terminal TD, and the other end of the temperature signal output terminal TD is connected with a PC terminal of the driver MD; the I0.6 input terminal of the control module PLC is connected with one end of a starting button SB1, and the other end of the starting button SB1 is connected with the PC terminal of the driver MD; the I0.7 input terminal of the control module PLC is connected to one end of the stop button SB2, and the other end of the stop button SB2 is connected to the PC terminal of the driver MD; the 1L terminal of the control module PLC is connected with the PC terminal of the driver MD; a 1L terminal of the control module PLC is connected with the positive electrode of the direct-current power supply; the Q0.1 terminal of the control module PLC is connected with the PR terminal of the driver MD; the Q0.2 terminal of the control module PLC is connected with the 2DF terminal of the driver MD; the Q0.3 terminal of the control module PLC is connected with the 3DF terminal of the driver MD; the Q0.4 terminal of the control module PLC is connected with the ES terminal of the driver MD; the Q0.5 terminal of the control module PLC is connected with the JOC terminal of the driver MD; a Q0.7 terminal of the control module PLC is connected with the negative electrode of the direct-current power supply; the DCM1 terminal of the driver MD is connected with the negative pole of the direct current power supply; the DCM2 terminal of the driver MD is connected with the negative pole of the direct current power supply; the RST terminal of the driver MD is connected with the output end of the QF, and the input end of the QF is connected with a three-phase alternating-current power supply; a UVW terminal of the driver MD is connected with a power supply input end of the servo motor M;

the heating control circuit comprises an air circuit breaker QF1, a relay K1 and a protector P1, one end of a coil of the relay K1 is connected with a Q0.0 terminal of a control module PLC, the other end of the coil of the relay K1 is connected with the negative electrode of a direct-current power supply, and the electric heater HR is connected with the power supply through normally open contacts of the air circuit breaker QF1 and the relay K1; the air circuit breaker QF1 is grounded through a protector P1.

The working principle of the technical scheme is as follows: the power supply of the control module PLC in the scheme adopts DC24V, the cathode of the direct current power supply is the cathode of a 24V direct current power supply, when the internal temperature of the thermostatic mechanism measured by the temperature sensor is lower than the set process temperature, the temperature sensor transmits a 24V positive voltage signal to the input end X1 of the control module PLC, when the internal temperature of the thermostatic mechanism measured by the temperature sensor is equal to the set process temperature, the temperature sensor transmits a 24V positive voltage signal to the input end X2 of the PLC, and the electric heater HR is started to heat when the internal temperature of the thermostatic mechanism is lower than the set process temperature through the logic program control of the control module PLC; when the internal temperature reaches the process temperature, the electric heater HR is turned off; the circulation is repeated in such a way, so that the constant temperature in the constant temperature mechanism is ensured; the air circuit breaker QF1 with leakage current protection device is used to protect the heating control circuit from overcurrent and leakage current faults due to various possible causes. One end of the air circuit breaker QF1 can be connected with a live wire end L of an alternating current 220V power supply, the other end of the air circuit breaker QF1 is connected with one end of a pair of normally open contacts of the relay K1, the other end of the normally open contact of the relay K1 is connected with one end of the electric heater HR, and the other end of the electric heater HR is connected with a zero wire end N of the alternating current 220V power supply; the protector P1 can adopt an arrester or an overvoltage protector for overvoltage protection of the electric heating loop, one end of the protector P1 is connected with a metal casing (the metal casing is grounded), and the other end of the protector P1 is connected with a live wire end L of a 220V alternating current power supply; the air circuit breaker Q1 with the leakage current protection device is used, so that in case that a worker touches a charged part in normal work, the leakage current protection device in the air circuit breaker acts to break a circuit of the circuit breaker, and personal safety is protected; meanwhile, when the circuit overcurrent caused by various possible faults damages the insulating material and generates leakage current, the overcurrent protection device of the circuit breaker acts to automatically break the circuit of the circuit breaker, so that equipment and a person are protected. The lightning arrester or the overvoltage protector P1 can prevent the electric equipment from being burnt out and leakage accidents caused by the overvoltage of the power supply, thereby protecting the equipment and personal safety; because the output end of the temperature sensor has 4-bit output, the detected temperature can be converted into 4-bit digital output through the self-contained A/D converter, the output value can reach 4 powers of 2, namely 64, and the temperature control is only to control and adjust a variable range from-5 ℃ to positive 5 ℃ (the adjusting range greatly exceeds the range which needs to be controlled actually) when the temperature reaches the set process temperature value, so that the process temperature value tends to be set more, dynamic balance is achieved, the temperature less than 10 ℃ is divided into 64 equal parts, namely, the difference between each output value and the temperature corresponding to the adjacent output value is 1/6.4 ℃, and an analog-to-digital conversion precision calculation method comprises the following steps:

d＝(Q_die/q_Bit)×100％

In the above formula, d is the analog-to-digital conversion precision, Q mode is the analog quantity range, and Q bit is the digital conversion quantity digit;

through the temperature digital value output by the sensor, the control module PLC sends an instruction to the driver through preset program operation to control the rotation direction and the rotation amount of the servo motor, so that the fan is driven to open and close, and the process temperature is adjusted and controlled.

The beneficial effects of the above technical scheme are: by using the air circuit breaker QF1 with the leakage current protection device, the leakage protection device in the air circuit breaker QF1 acts to disconnect the circuit of the air circuit breaker QF1 and protect personal safety in case that a worker contacts an electrified part in normal work; meanwhile, when the circuit overcurrent caused by various possible faults damages the insulating material and generates leakage current, the overcurrent protection device of the air circuit breaker QF1 acts to automatically disconnect the circuit of the air circuit breaker QF1, so that equipment and personnel are protected; the protector P1 adopts a lightning arrester or an overvoltage protector, so that the burning out of electric equipment and the occurrence of electric leakage accidents caused by the overvoltage of a power supply can be prevented, and the equipment and the personal safety are protected; the use of the control module PLC can conveniently integrate the heating control and the shaping control together, thereby leading the whole circuit to be fewer and simple in devices; the whole circuit is simple, the fault point is reduced to the necessary minimum limit, so that the circuit can more reliably realize the use purpose, and the heating control and the shaping control can be conveniently integrated together by using the control module PLC, so that the whole circuit is simple and has few devices; the temperature sensor can effectively ensure the temperature precision of the temperature output digital switching value output; and the control module PLC is matched with the driver and the servo motor for more accurate temperature control.

In one embodiment, the main control module is connected with an infrared temperature sensor which is arranged at a biodegradable film inlet of the constant temperature mechanism;

the constant temperature control module is arranged in the main control module and used for predicting the heating demand of the constant temperature mechanism and controlling the constant temperature heater according to the heating demand;

the built-in constant temperature control model of the main control module is as follows:

in the above formula, Q represents the electric heating power of the constant temperature heater; n represents the rotational speed of the drive mechanism; gamma represents the transmission ratio of the driving mechanism and the shaping guide roller; c represents the specific heat of the biodegradable film; tau represents the mass of the biodegradable film per unit length, Kg/m; d represents the diameter of the shaping guide roller; t is t_{Process for the preparation of a coating}Represents the process temperature; t is t₁Indicating biological descentThe temperature of the film entering the constant temperature mechanism is reduced; c_{Qi (Qi)}Represents the specific heat of air; rho_{Qi (Qi)}Represents the air density; v represents the thermostatic mechanism internal volume; t is t₂Represents the internal temperature of the thermostatic mechanism; q represents the heat loss of the thermostatic mechanism.

The working principle and the beneficial effects of the technical scheme are as follows: according to the scheme, a constant temperature control model related to the rotating speed of a driving mechanism is established on a main control module, the quantity relation between the rotating speed of the driving mechanism and the heating quantity demand in the thermal blowing process of the biodegradable film is established, an infrared temperature sensor is arranged at the inlet of the biodegradable film of a constant temperature mechanism and used for detecting the temperature at the inlet of the biodegradable film of the constant temperature mechanism, the heating demand of the constant temperature mechanism is predicted by the constant temperature control model, and a constant temperature heater is controlled by the heating demand, so that the accurate control of the internal temperature of the constant temperature mechanism is realized, the process requirement required by thermal blowing of the biodegradable film is guaranteed, on one hand, the uneven temperature distribution caused by the over-high heating speed can be prevented, and on the other hand, the product quality is prevented from being influenced by over-heating; the constant temperature control model formula of this scheme has directly perceived the quantitative relation between the actuating mechanism rotational speed and the heating capacity demand, has established the relevance basis between the influence factor for the accuracy nature of control, and the accurate heat of realization is carried, prevents energy waste, has ensured temperature control's in the technology accuracy nature to product quality has been ensured.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.