CN112571764A

CN112571764A - Method for manufacturing bottle blank of green drinking water packaging bottle

Info

Publication number: CN112571764A
Application number: CN202011317823.9A
Authority: CN
Inventors: 李梁
Original assignee: Suzhou Huaxinda Drink Technology Co ltd
Current assignee: Suzhou Huaxinda Drink Technology Co ltd
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-03-30

Abstract

The invention discloses a method for manufacturing a bottle blank of a green drinking water packaging bottle, which comprises the following steps: (1) scanning information of each part by using a scanner, transmitting data to a switchboard and classifying; (2) placing the materials on different conveyor belts by an automatic robot through the signals transmitted by classification on the switchboard for preparation of integration and manufacture; (3) firstly, deeply cleaning a material to be processed by using a cleaning chamber; (4) drying the cleaned material in a drying chamber; (5) entering a processing chamber, adjusting the pressure and the temperature of the processing chamber by using a scheme calculated by a switchboard, adjusting the pressure by using a pressure adjusting valve, and adjusting the temperature by using a heater; (6) in the treatment chamber, injection molding is carried out; (7) and the bottle blanks processed by the processing chamber enter a blow molding table and other equipment for further operation. The invention has simple structure, high finished product rate of the manufactured bottle blank and high manufacturing efficiency.

Description

Method for manufacturing bottle blank of green drinking water packaging bottle

Technical Field

The invention relates to the field of packaging bottle treatment, in particular to a method for manufacturing a bottle blank of a green drinking water packaging bottle.

Background

At present, with the improvement of living standard of people, drinking water such as purified water, mineral water and the like enters thousands of households, but a recycled water purifying bottle is mainly adopted for containing the purified water, the mineral water and the like, and in order to enable the water purifying bottle which is reused to meet the requirements of sterility, cleanness and sanitation, raw materials must be carefully disinfected and washed clean in the manufacturing process, and then water can be filled.

The existing bottle blank methods are all simple, raw materials are cleaned only by flushing, but the raw materials are difficult to flush by flushing alone, so that the bottle blanks cannot reach the sanitary standard, the efficiency of the whole production line is low, and the cost is increased.

Disclosure of Invention

The invention aims to solve the technical problem of providing a bottle blank manufacturing method of a green drinking water packaging bottle, which is simple in structure, can effectively carry out secondary utilization on waste packaging bottles and improves the recovery efficiency.

In order to solve the technical problems, the invention provides a method for manufacturing a bottle blank of a green drinking water packaging bottle, which comprises the following steps: the method comprises the following steps: (1) scanning information of each part by using a scanner, transmitting data to a switchboard and classifying; (2) placing the materials on different conveyor belts by an automatic robot through the signals transmitted by classification on the switchboard for preparation of integration and manufacture; (3) firstly, deeply cleaning a material to be processed by using a cleaning chamber; (4) drying the cleaned material in a drying chamber; (5) entering a processing chamber, adjusting the pressure and the temperature of the processing chamber by using a scheme calculated by a switchboard, adjusting the pressure by using a pressure adjusting valve, and adjusting the temperature by using a heater; (6) in the treatment chamber, injection molding is carried out; (7) and the bottle blanks processed by the processing chamber enter a blow molding table and other equipment for further operation.

Further, the conveyor belt sequentially passes through the cleaning chamber, the drying chamber and the processing chamber.

Further, a water collecting tank is arranged below the conveying belt.

Further, the water collecting tank is connected with a water treatment system.

Further, the water treatment system includes: the short-cut nitrification device is used for carrying out short-cut nitrification treatment on the wastewater to be treated under an aerobic condition to obtain primary treated wastewater, wherein the primary treated wastewater comprises ammonia nitrogen and nitrite nitrogen; and the anaerobic ammonia oxidation device is connected with the partial nitrification device to receive the primary treatment wastewater and carry out anaerobic ammonia oxidation treatment on the primary treatment wastewater to obtain dischargeable standard-reaching liquid.

Further, a pressure valve and a temperature sensor are also arranged in the processing chamber in the step 5.

Further, the control method of the automatic robot adopts closed-loop control, and once the article is not detected, the article can be fed back to the switchboard to carry out the next operation.

The invention has the beneficial effects that: the method firstly utilizes the scanner to classify the raw materials, adopts different production lines for different materials, and prevents serious economic loss caused by wrong mixed overlapping of the production materials, thereby ensuring that packaging bottles made of different materials are processed in different time, and having good use effect and high manufacturing efficiency.

Drawings

FIG. 1 is a schematic representation of the steps of the present invention.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

Referring to fig. 1, an embodiment of a method for manufacturing a bottle blank of a green drinking water packaging bottle according to the present invention includes the following steps: (1) scanning information of each part by using a scanner, transmitting data to a switchboard and classifying; (2) placing the materials on different conveyor belts by an automatic robot through the signals transmitted by classification on the switchboard for preparation of integration and manufacture; (3) firstly, deeply cleaning a material to be processed by using a cleaning chamber; (4) drying the cleaned material in a drying chamber; (5) entering a processing chamber, adjusting the pressure and the temperature of the processing chamber by using a scheme calculated by a switchboard, adjusting the pressure by using a pressure adjusting valve, and adjusting the temperature by using a heater; (6) in the treatment chamber, injection molding is carried out; (7) and the bottle blanks processed by the processing chamber enter a blow molding table and other equipment for further operation.

After the classified materials are processed, the switchboard can automatically generate a cleaning scheme and cleaning time, the service time of the cleaning chamber, the drying chamber and the processing chamber is controlled, different processing time is guaranteed for bottle blanks made of different materials, and the service efficiency is high.

The conveyer belt below is provided with the catch basin, and the catch basin is connected with water treatment system, and water treatment system includes: the short-cut nitrification device is used for carrying out short-cut nitrification treatment on the wastewater to be treated under an aerobic condition to obtain primary treated wastewater, wherein the primary treated wastewater comprises ammonia nitrogen and nitrite nitrogen; and the anaerobic ammonia oxidation device is connected with the partial nitrification device to receive the primary treatment wastewater and carry out anaerobic ammonia oxidation treatment on the primary treatment wastewater to obtain dischargeable standard-reaching liquid.

The water treatment system further comprises: the ammoniation device is arranged on an upstream pipeline of the short-cut nitrification device so as to firstly ammoniate organic matters in the wastewater to be treated entering the short-cut nitrification device; and anaerobic granular sludge is inoculated in the ammoniation device, and ammoniation bacteria of the anaerobic granular sludge carry out ammoniation treatment on the wastewater to be treated flowing through the anaerobic granular sludge.

The water treatment system further comprises: the adjusting tank is internally provided with a stirrer so as to mix the wastewater to be treated flowing into the adjusting tank at different time intervals; and the water inlet of the sewage pump is connected with the regulating reservoir, and the water outlet of the sewage pump is connected with the water inlet of the short-cut nitrification device, so that the to-be-treated wastewater uniformly stirred in the regulating reservoir is pumped into the short-cut nitrification device.

The wastewater to be treated in the regulating reservoir is mixed, namely, the wastewater to be treated which is discharged from a wastewater source at different moments is subjected to water quality homogenization treatment in the regulating reservoir; and the wastewater to be treated in the regulating reservoir is pumped into the short-cut nitrification device through the sewage pump, so that the water quantity entering the nitrification device is ensured to be uniform, and the water quantity and the water quality of the wastewater to be treated are uniformly regulated by arranging the regulating reservoir and the sewage pump, so that the requirements on the water quality and the water quantity constancy of the wastewater to be treated are reduced, and the continuity of a subsequent short-cut nitrification process and an anaerobic ammonia oxidation process is ensured.

And 5, a pressure valve and a temperature sensor are further arranged in the processing chamber, the temperature and the pressure of the injection molding machine can be detected in a trial mode, the automatic robot can start to work after the temperature and the pressure are adjusted to the set temperature and the set pressure, the control method of the automatic robot adopts closed-loop control, and once articles cannot be detected, the articles are fed back to the switchboard to carry out the next operation.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims

1. The method for manufacturing the bottle blank of the green drinking water packaging bottle is characterized by comprising the following steps of: (1) scanning information of each part by using a scanner, transmitting data to a switchboard and classifying; (2) placing the materials on different conveyor belts by an automatic robot through the signals transmitted by classification on the switchboard for preparation of integration and manufacture; (3) firstly, deeply cleaning a material to be processed by using a cleaning chamber; (4) drying the cleaned material in a drying chamber; (5) entering a processing chamber, adjusting the pressure and the temperature of the processing chamber by using a scheme calculated by a switchboard, adjusting the pressure by using a pressure adjusting valve, and adjusting the temperature by using a heater; (6) and in the processing chamber, performing injection molding processing on the material by using an injection molding machine to form the bottle blank.

2. The method for manufacturing a bottle blank of a green drinking water packaging bottle as claimed in claim 1, wherein the conveyor belt sequentially passes through the cleaning chamber, the drying chamber and the processing chamber.

3. The method for manufacturing a bottle blank of a green drinking water packaging bottle according to claim 1, wherein a water collecting tank is arranged below the conveyor belt.

4. The method for manufacturing a bottle blank of a green drinking water packaging bottle as claimed in claim 1, wherein the water collecting tank is connected with a water treatment system.

5. The method for manufacturing a bottle blank of a green drinking water packaging bottle as claimed in claim 4, wherein the water treatment system comprises: the short-cut nitrification device is used for carrying out short-cut nitrification treatment on the wastewater to be treated under an aerobic condition to obtain primary treated wastewater, wherein the primary treated wastewater comprises ammonia nitrogen and nitrite nitrogen; and the anaerobic ammonia oxidation device is connected with the partial nitrification device to receive the primary treatment wastewater and carry out anaerobic ammonia oxidation treatment on the primary treatment wastewater to obtain dischargeable standard-reaching liquid.

6. The method for manufacturing a green drinking water packaging bottle preform according to claim 1, wherein a pressure valve and a temperature sensor are further disposed in the processing chamber in the step 5.

7. The method for manufacturing a bottle blank of a green drinking water packaging bottle as claimed in claim 1, wherein the control method of the automatic robot adopts closed-loop control, and once no article is detected, the control method feeds back the article to the switchboard to perform the next operation.