NL2026931B1 - Digital twin industrial control device - Google Patents

Abstract

A digital twin industrial control device includes an air purification device that is fixedly connected on a controller. The air purification device includes a ventilation channel. A rear end of the ventilation channel is provided with a plurality of rotation rods. Each of the rotation rods is evenly arranged with electrostatic filter sheets and connected with a gear. Respective adjacent gears engage with each other. A cleaning rod driven by a vertical movable block is disposed behind the rotation rod. A left end of the cleaning rod is fixedly connected with a rotation motor while a right end of the cleaning rod is provided with an angle detection device. A central portion of the ventilation channel is fixedly connected with a fan, and a front end of the ventilation channel is detachably connected with a filter sheet, so that the present invention can filter the air entering the controller again to extend the service life of the controller.

Description

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DIGITAL TWIN INDUSTRIAL CONTROL DEVICE

TECHNICAL FIELD The present invention relates to an industrial control device, and in particular, to a digital twin industrial control device.

BACKGROUND Because they are used non-stop in industrial applications, some control devices need to dissipate heat continuously during machine operation. In an industrial setting, however, a large amount of dust, including metal particulates, can enter the control device during ventilation and heat dissipation thus retarding its operating efficiency and ultimately shortening the service life of the controller.

SUMMARY OF INVENTION In order to overcome the defects of the prior art, the present invention provides a digital twin control device uniquely designed for industrial applications. The new digital twin industrial control device not only resolves the problem of infiltration and removal of metal dust in an industrial environment, but the invention also filters the air entering the controller. A technical solution for the shortcomings of the prior art include providing a controller, which is characterized in further including an air purification device that is fixedly connected on the controller, wherein the air purification device includes a ventilation channel. A rear end of the ventilation channel is provided with a plurality of rotation rods that are vertically arranged and evenly spaced with respect to each other. Each of the rotation rods has four electrostatic filter sheets that are evenly arranged along a circumference and connected with a gear on an upper end thereof. Respective adjacent gears engage with each other, so that one of the gears is driven by a driving motor that is fixedly connected on the controller. Left and right sides of a ventilation channel located behind each of the rotation rods are respectively provided with vertical movable blocks. A cleaning rod arranged horizontally relative to the blocks is disposed between the two vertical movable blocks. The vertical movable blocks perform driving and guiding through a threaded rod and a polish rod that are vertically arranged on the ventilation channel. A left end of the cleaning rod is fixedly connected with a rotation motor. A right end of the cleaning rod is provided with an angle detection device. A fan is fixedly connected in a central portion of the ventilation channel, and a filter sheet is detachably connected at a front end of the ventilation channel.

22- Advantageous effects of the present invention include: 1. being able to filter the air that enters inside the controller multiple times;

2. being able to collect the filtered dust during the filtering process and clean the filtering components; and

3. being able to absorb and clean the dust containing iron and other metals in the air.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall schematic diagram of the present invention.

FIG. 2 is a cross sectional view of the overall schematic diagram of the present invention.

FIG. 3 is a schematic diagram of an air filtering component of the present invention.

FIG. 4 is a cross sectional view of the air filtering component of the present invention.

FIG. 5 is a partial enlarged view of the cross sectional view of the air filtering component of the present invention.

FIG. 6 is the overal! schematic diagram at a second view angle of the present invention.

FIG. 7 is a partial enlarged view of the overall schematic diagram at the second view angle of the present invention.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS The exemplary embodiments of the present invention are further described in detail in conjunction with FIGS. 1-7 below.

Embodiment 1 A technical solution thereof is including a controller 1, which is characterized in further including an air purification device that is fixedly connected on the controller. The air purification device includes a ventilation channel 2. A rear end of the ventilation channel 2 is provided with a plurality of rotation rods 3 that are vertically arranged and arranged to be evenly spaced. Each of the rotation rods 3 has four electrostatic filter sheets 4 evenly arranged along a circumference and is connected with a gear 5 on an upper end thereof.

Respective adjacent gears 5 engage with each other, such that one of the gears 5 is driven by a driving motor 6 that is fixedly connected on the controller 1. Left and right sides of the ventilation channel 2 located behind each of the rotation rods 3 are respectively provided with vertical movable blocks 7, a cleaning rod 8 arranged horizontally is disposed between the two vertical movable blocks 7. The vertical movable blocks 7 perform driving and guiding

-3- with a polish rod through the controller 1 that is vertically arranged on the ventilation channel 2. A left end of the cleaning rod 8 is fixedly connected with a rotation motor 11. A right end of the cleaning rod 8 is provided with an angle detection device 12. A fan 13 is fixedly connected in a central portion of the ventilation channel 2, and a filter sheet 14 is detachably connected at a front end of the ventilation channel 2. In use, the fan 13 in the ventilation channel 2 is started. The air entering inside the controller 1 enters from the rear end in the ventilation channel 2 under action of the fan 13, and the air first passes through gaps between the respective rotation rods 3 after entering the ventilation channel 2 and enters into the controller 1. After the electrostatic filter sheets 4 onthe respective rotation rods 3 are powered, dust will be absorbed by the powered electrostatic filter sheets 4 after entering between the electrostatic filter sheets 4. The air passing through the electrostatic filter sheets 4 will be filtered again by the filter sheet 14 after entering into the controller 1. The filter sheet 14 can be detachably connected and may be replaced after used for a predetermined time. The dust absorbed by the electrostatic filter sheets 4 will be cleaned by the cleaning rod 8. During the cleaning process, the two vertical movable blocks 7 at the left and right sides perform upward-downward movement and guiding through the controller 1 and the polish rod 10 that cooperate with each other, respectively. Upper ends of the two controllers 1 at the left and right sides are connected through a timing belt, respectively, and the two vertical movable blocks 7 ascend and descend during the rotation process of the two controllers 1. The cleaning rod 8 is driven and rotated by the rotation motor 11 at the left side, while the angle detection device 12 at the right end of the cleaning rod 8 detects a current rotation angle of the cleaning rod 8, so that ascending-descending and rotating actions are performed by controlling the cleaning rod 8 to make the cleaning rod 8 clean the electrostatic filter sheets 4. The driving motor 6 can drive the gears 5 on the upper ends of the respective rotation rods 3 during the rotation process. Since the adjacent gears 5 among the respective gears 5 engage and cooperate with each other, the respective gears 5 are enabled to be synchronously rotated during the rotation process of the driving motor 6, and the electrostatic filter sheets 4 on the two adjacent rotation rods 3 are alternatively arranged.

Embodiment 2 On the basis of Embodiment 1, orientations of the electrostatic filter sheets 4 on each of the rotation rods 3 at an initial position are in a staggered arrangement, and the respective electrostatic filter sheets 4 are not in contact with each other. A front side and a rear side of the cleaning rod 8 are provided with cleaning sheets 15 for cleaning the electrostatic filter

-4- sheets 4 respectively. The cleaning sheets 15 of the front and rear sides are in a staggered arrangement and each of the cleaning sheets 15 correspond to positions of the rotation rods 3, respectively, and a lower end of each rotation rod 3 is detachably connected with a collection box 16 for collecting dust.

In use, the initial position of the cleaning rod 8 is such that the cleaning sheets 15 in the rotation rod 8 are oriented upward and downward, respectively, and the electrostatic filter sheets 4 of a part of the rotation rods 3 are oriented forward and backward directions. The electrostatic filter sheets 4 of the other part of the rotation rods 3 are arranged to be orientated an inclined line of 45°, and two kinds of rotation rods 3 are alternatively arranged.

When it needs to clean the electrostatic filter sheets 4, the two vertical sliding blocks at the left and right sides are moved upward by the controllers 1 at the left and right sides. The cleaning rod 8 is moved upward during the process of moving the two vertical sliding blocks upward. After the cleaning rod 8 is moved upward to a set position, the cleaning rod 8 is rotated 90°by the rotation motor 11 at the left end of the cleaning rod 8 to make the cleaning sheets 15 on the cleaning rod 8 cooperate with the electrostatic filter sheets 4 orientated forward on the rotations rods 3. At the moment, the two controllers 1 are driven to reverse to make the two vertical movable blocks 7 at the left and right sides move downward, so that the cleaning rod 8 is moved downward. During the process that the cleaning rod 8 is moved downward, the electrostatic filter sheets 4 are cleaned by the cleaning sheets 15, and the cleaned dust is collected into the collection box 16 under the electrostatic filter sheets 4. Then, after the cleaning rod 8 is moved downward to a set position. The cleaning rod 8 is controlled to rotate 90°again by the rotation motor 11 at the left end of the cleaning rod 8, and at the moment, the cleaning sheets 15 on the cleaning rod 8 are returned to that one end is oriented upward while the other end is orientated downwardf. Then, the driving motor 6 at the upper end is controlled to rotate the rotation rods 3 by 45°. The two controllers 1 at the left and right sides are controlled to reverse to make the cleaning rod 8 ascend to a set height. The rotation motor 11 is controlled to make the cleaning rod 8 continuously rotate 90°. At the moment, the cleaning sheets 15 on the cleaning rod 8 cooperate with the corresponding electrostatic filter sheets 4. The cleaning rod 8 is moved downward by controlling the two controllers 1 at the left and right sides to thereby finish the cleaning. The reciprocating cyclic cleaning process can continuously clean the dust on the electrostatic filter sheets 4.

Embodiment 3

-5- On the basis of Embodiment 1,the angle detection device 12 includes a pointer 17 that is fixedly connected at the right end of the cleaning rod 8 and perpendicular to an axis of the cleaning rod 8, and a detection barrel 18 that is fixedly connected at the vertical movable block 7 of the right side and sleeved on the right end of the cleaning rod 8, such that detection sheets that cooperate with the pointer 17 are fixedly connected in up, down, left and right directions within the detection barrel 18.

In use, the angle detection device 12 is used to detect an angle of a current position of the cleaning rod 8. When the pointer 17 is in contact with the detection sheets in the detection barrel 18, it is a current rotation position of the cleaning rod 8, and it is able to perform feedback for the angle of the cleaning rod at the same time. Next, the driving motor 6 is controlled to cooperate with the rotation motor 11 to complete the cleaning of the electrostatic filter sheets 4.

Claims (3)

-6- Conclusions A digital dual industrial controller comprising a controller (1), the controller characterized in that it further comprises an air purifier fixedly connected to the controller, the air purifier comprising a ventilation duct (2), a rear end of the ventilation duct (2) is provided with a plurality of rotation rods (3) arranged vertically and equidistant from each other, each of the rotation rods (3) having four electrostatic filter sheets (4) arranged evenly along a circumference and fixedly connected to a gear (5) at an upper end thereof, respective adjacent gears meshing with each other, one of the gears being driven by a drive motor (6) rigidly connected to the controller (1), and right sides of the ventilation duct (2) located behind each of the rotation rods (3) respectively may be provided with vertical movable blocks (7), wherein a cleaning rod (8) arranged horizontally is placed between the two vertical movable blocks (7), the vertical movable blocks (7) driving and guiding it with a polished rod (10) performed by the controller (1) arranged vertically on the ventilation duct (2), a left end of the cleaning rod (8) being fixedly connected to a rotary motor (11), a right end of the cleaning rod (8) being provided of an angle detecting device (12), wherein a fan (13) is fixedly connected in a central portion of the ventilation duct (2), and wherein a filter sheet (14) is releasably connected at a front end of the ventilation duct (2) . The digital dual industrial controller according to claim 1, characterized in that orientations of the electrostatic filter sheets (4) on each of the rotation rods (3) at an initial position are in an offset arrangement and the respective electrostatic filter sheets (4) are not in contact. with each other, wherein a front side and a rear side of the cleaning rod (8) are provided with cleaning sheets (15) for cleaning the electrostatic filter sheets (4), respectively, the cleaning sheets (15) of the front and rear sides in be an offset arrangement and each of the cleaning sheets (15) corresponds to a respective position of each of the rotation rods (3), and wherein a -7- collecting box (16) for collecting dust is detachably connected to a lower end of each of the rotation rods (3). Digital dual industrial controller according to claim 1, characterized in that the angle detecting device (12) comprises a pointer (17) fixedly connected at the right end of the cleaning rod (8) and perpendicular to an axis of the cleaning rod ( 8) and a detection vessel (18) which is fixedly connected at the vertical movable block (7) of the right side and which is slid on the right end of the cleaning rod (8), whereby detection sheets cooperating with the pointer (17) are fixed connected in upward, downward, left and right directions within the sensing vessel (18).