CN109200652A - A kind of manufacturing device of sewage water filtration bucket - Google Patents

Abstract

The invention belongs to environment protection fields, intelligence manufacture field, more particularly to a kind of manufacturing device of sewage water filtration bucket, it includes assembled portion, human-computer interaction interface and control unit, assembled portion assembles the different filter vat of thickness according to existing material, human-computer interaction interface is worker operation interface, and control unit controls assembled portion according to the order at worker operation interface and assembles corresponding filter vat.The order button that the present invention is pressed according to worker in human-computer interaction interface, control unit control assembled portion rapidly manufacture the filter vat for meeting corresponding functional requirement using existing material.

Description

Manufacturing device of sewage filter vat

Technical Field

The invention belongs to the fields of environmental protection and intelligent manufacturing, and particularly relates to a manufacturing device of a sewage filter vat.

Background

Sewage plants are classified into industrial wastewater and domestic wastewater, and filtering buckets with different layers are required to be arranged to filter the classified sewage due to different impurities contained in different sewages. For example, Shanghai Hongcheng environmental science and technology Co., Ltd is a sewage filter tank (CN207412935U), and Asahi falcon technology Co., Ltd is a proprietary product automated production facility (CN 202245172U).

Disclosure of Invention

The invention provides a manufacturing device of a sewage filter vat, which can assemble a filter vat meeting the production requirement according to the specific production requirement, and meet the large-scale automatic production of personalized customization.

It includes assembly portion, human-computer interaction interface and control part, assembly portion includes screen frame, conveying subassembly and mould subassembly, wherein:

the filter screen frame is divided into two areas, a plurality of rectangular first filter screens and a plurality of rectangular second filter screens are respectively placed in the two areas, the widths of the first filter screens and the second filter screens are equal, but the lengths of the first filter screens and the second filter screens are twice as long as the lengths of the second filter screens, the lengths of the iron bars are equal to the widths of the filter screens, the iron bars are embedded in the left side edges of the first filter screens, and the iron bars are embedded in the right side edges of;

the conveying assembly comprises a track and a first motor for driving the filter screen frame to translate along the track;

the mold assembly includes:

the first barrel-shaped die is arranged in a manner of being attached to the left side of the filter screen frame, and a first electrified coil is arranged inside the first barrel-shaped die;

the second motor is connected with the first barrel-shaped die and used for driving the first barrel-shaped die to rotate;

the second barrel-shaped die is arranged in a manner of being attached to the right side of the filter screen frame, and a second electrified coil is arranged inside the second barrel-shaped die;

the third motor is connected with the second barrel-shaped mould and is used for driving the second barrel-shaped mould to rotate;

the filter screen frame is driven by the first motor to move horizontally along the track, the filter screen is moved to a position where the barrel-shaped die is attached, the energizing coil is energized to generate a magnetic field, so that the barrel-shaped die and an iron strip on the filter screen are adsorbed and fixed, the second motor or the third motor drives the barrel-shaped die to rotate, and the filter screen is wound into a barrel-shaped filter along the barrel-shaped die;

two command buttons are arranged on the human-computer interaction interface, namely a first button for assembling the coarse filter barrel and a second button for assembling the fine filter barrel;

the control part is in signal connection with the first motor, the second motor, the third motor and the human-computer interaction interface and is configured to:

when the first button is pressed, the first motor is controlled to drive the filter screen frame to translate along the track until the left side of the first filter screen on the filter screen frame is attached to the first barrel-shaped die, the first energizing coil in the first barrel-shaped die is controlled to be energized to generate a magnetic field, the generated magnetic field is attracted with an iron strip embedded on the left side of the first filter screen, the second motor is continuously controlled to drive the first barrel-shaped die to rotate, and the first filter screen is wound into a coarse filter barrel along the first barrel-shaped die;

in a similar way, when the second button is pressed down, the first motor is controlled to drive the filter screen frame to translate along the track until the right side of the second filter screen on the filter screen frame is attached to the second barrel-shaped die, the second electrified coil in the second barrel-shaped die is controlled to be electrified to generate a magnetic field, the generated magnetic field is attracted with the iron strip embedded on the right side of the second filter screen, the third motor is continuously controlled to drive the second barrel-shaped die to rotate, and the second filter screen is wound into the fine filter barrel along the second barrel-shaped die.

The invention has the beneficial effects that: according to the invention, the control assembly part of the control part utilizes the existing materials to manufacture the filter barrel meeting the corresponding functional requirements according to the command button pressed by a worker on the human-computer interaction interface, and the production efficiency is high.

Drawings

FIG. 1 shows a schematic view of a manufacturing apparatus;

fig. 2 shows a block diagram of the composition of the manufacturing apparatus.

Detailed Description

The structure of the present system and the functions performed are described in detail below with reference to the accompanying drawings.

The manufacturing device comprises an assembling part 1, a human-computer interaction interface 2 and a control part 3; wherein,

the assembly section 1 includes a strainer tray 11, a conveying assembly 12, and a mold assembly 13, wherein:

the filter screen frame 11 is divided into two areas, a plurality of rectangular first filter screens 111 and a plurality of rectangular second filter screens 112 are respectively placed in the two areas, the widths of the first filter screens and the second filter screens are equal, but the lengths of the first filter screens and the second filter screens are twice as long as the lengths of the first filter screens and the second filter screens, iron bars are embedded in the left sides of the first filter screens, iron bars are embedded in the right sides of the second filter screens, and the lengths of the iron bars are equal;

the conveyor assembly 12 comprises a track 121 and a first motor 122 driving the screen carrier 11 in translation along the track 121;

the mold assembly 13 includes:

a first barrel mold 131 which is disposed to be attached to the left side of the screen frame 11;

a second motor 132 connected to the first barrel mold 131, for driving the first barrel mold 131 to rotate;

a second barrel mold 133 disposed to be attached to the right side of the screen frame 11;

a third motor 134 connected to the second barrel mold 133 for driving the second barrel mold 133 to rotate;

a first energization coil 135 provided inside the first barrel mold 131;

a second current-carrying coil 136 disposed inside the second barrel mold 133;

the filter screen frame 11 is driven by the first motor 122 to move horizontally along the track 121, the first filter screen 111 is moved to a position where the first barrel-shaped die 131 is attached, the second filter screen 112 is moved to a position where the second barrel-shaped die 133 is attached, the first energizing coil 135 positioned in the first barrel-shaped die 131 is energized to generate a magnetic field, so that the first barrel-shaped die 131 and the iron strips of the first filter screen 111 are fixedly adsorbed, the second energizing coil 136 positioned in the second barrel-shaped die 133 is energized to generate a magnetic field, so that the second barrel-shaped die 133 and the iron strips of the second filter screen 112 are fixedly adsorbed, the second motor 132 drives the first barrel-shaped die 131 to rotate to wind the first filter screen into a barrel along the barrel-shaped die, and the third motor 134 drives the second barrel-shaped die 133 to rotate to wind the second filter screen into a fine filter barrel along the barrel die;

the human-computer interaction interface 2 is a worker operation interface and is used for acquiring operation requirements of workers on the system, and two command buttons can be arranged, namely a first button 21 for assembling the coarse filter vat and a second button 22 for assembling the fine filter vat;

a control part 3 in signal connection with the first motor 122, the second motor 132, the third motor 134 and the human-machine interface 2, and configured to:

when a worker presses the first button 21 in the man-machine interface 2, the first motor 122 in the transfer assembly 12 is controlled to drive the filter screen frame 11 to translate along the track 121 until the left side of the first filter screen 111 on the filter screen frame 11 is attached to the first barrel-shaped mold 131, at this time, the first energizing coil 135 in the first barrel-shaped mold 131 is controlled to be energized to generate a magnetic field, the generated magnetic field is attracted to the iron bar embedded in the left side of the first filter screen 111, the second motor 132 is continuously controlled to drive the first barrel-shaped mold 131 to rotate, and the first filter screen 111 is wound into a coarse filter barrel along the first barrel-shaped mold 131;

similarly, when a worker presses the second button 22 in the human-computer interface 2, the first motor 122 in the transfer assembly 12 is controlled to drive the filter screen holder 11 to translate along the track 121 until the right side of the second filter screen 112 on the filter screen holder 11 is attached to the second barrel mold 133, and at this time, the second electrified coil 136 in the second barrel mold 133 is controlled to be electrified to generate a magnetic field, the generated magnetic field is attracted to the iron bar embedded at the right side of the second filter screen 112, and the third motor 134 is continuously controlled to drive the second barrel mold 133 to rotate, so that the second filter screen 112 is wound into a fine filter barrel along the second barrel mold 133.

It will be appreciated by persons skilled in the art that numerous variations and/or modifications may be made to the invention as shown in the specific embodiments without departing from the spirit or scope of the invention as broadly described. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive. Likewise, the invention encompasses any combination of features, in particular of features in the patent claims, even if this feature or this combination of features is not explicitly specified in the patent claims or in the individual embodiments herein.

Claims (2)

1. The utility model provides a manufacturing installation of sewage filter vat which characterized in that, its equipment out satisfies the sewage filter vat of this production demand according to concrete production demand.

2. A manufacturing device of a sewage filter barrel comprises an assembling part, a man-machine interaction interface and a control part, and is characterized in that,

the assembly portion includes a screen frame, a conveying assembly, and a mold assembly, wherein:

the filter screen frame is divided into two areas, a plurality of rectangular first filter screens and a plurality of rectangular second filter screens are respectively placed in the two areas, the widths of the first filter screens and the second filter screens are equal, but the lengths of the first filter screens and the second filter screens are twice as long as the lengths of the second filter screens, the lengths of the iron bars are equal to the widths of the filter screens, the iron bars are embedded in the left side edges of the first filter screens, and the iron bars are embedded in the right side edges of;

the conveying assembly comprises a track and a first motor for driving the filter screen frame to translate along the track;

the mold assembly includes:

the first barrel-shaped die is arranged in a manner of being attached to the left side of the filter screen frame, and a first electrified coil is arranged inside the first barrel-shaped die;

the second motor is connected with the first barrel-shaped die and used for driving the first barrel-shaped die to rotate;

the second barrel-shaped die is arranged in a manner of being attached to the right side of the filter screen frame, and a second electrified coil is arranged inside the second barrel-shaped die;

the third motor is connected with the second barrel-shaped mould and is used for driving the second barrel-shaped mould to rotate;

the filter screen frame is driven by the first motor to move horizontally along the track, the filter screen is moved to a position where the barrel-shaped die is attached, the energizing coil is energized to generate a magnetic field, so that the barrel-shaped die and an iron strip on the filter screen are adsorbed and fixed, the second motor or the third motor drives the barrel-shaped die to rotate, and the filter screen is wound into a barrel-shaped filter along the barrel-shaped die;

two command buttons are arranged on the human-computer interaction interface, namely a first button for assembling the coarse filter barrel and a second button for assembling the fine filter barrel;

the control part is in signal connection with the first motor, the second motor, the third motor and the human-computer interaction interface and is configured to:

when the first button is pressed, the first motor is controlled to drive the filter screen frame to translate along the track until the left side of the first filter screen on the filter screen frame is attached to the first barrel-shaped die, the first energizing coil in the first barrel-shaped die is controlled to be energized to generate a magnetic field, the generated magnetic field is attracted with an iron strip embedded on the left side of the first filter screen, the second motor is continuously controlled to drive the first barrel-shaped die to rotate, and the first filter screen is wound into a coarse filter barrel along the first barrel-shaped die;

in a similar way, when the second button is pressed down, the first motor is controlled to drive the filter screen frame to translate along the track until the right side of the second filter screen on the filter screen frame is attached to the second barrel-shaped die, the second electrified coil in the second barrel-shaped die is controlled to be electrified to generate a magnetic field, the generated magnetic field is attracted with the iron strip embedded on the right side of the second filter screen, the third motor is continuously controlled to drive the second barrel-shaped die to rotate, and the second filter screen is wound into the fine filter barrel along the second barrel-shaped die.