CN114069452B - Engineering screen cabinet production line and control method thereof - Google Patents

Abstract

The invention discloses an engineering screen cabinet production line, which comprises the following steps: feeding subassembly, installation component and the mounting panel upset subassembly that connect gradually still include: a cabinet body overturning assembly; the feeding assembly is used for erecting the mounting plate on the feeding assembly from a horizontal state, inclining a preset angle to align with the mounting assembly and conveying the mounting plate to the mounting assembly; after the components of the mounting plate on the mounting assembly are mounted, the mounting plate is conveyed to the mounting plate overturning assembly; the mounting plate overturning assembly horizontally levels the mounting plate inclined by a preset angle; the cabinet body overturning assembly is used for enabling the engineering cabinet body to be horizontal from the standing state, and after the installation plate on the installation plate overturning assembly is hung into the engineering cabinet body in the horizontal state and fixed, the engineering cabinet body is standing. The installation and wiring of the installation plate are completed in an open environment under the standing state, then the installation plate is installed in the horizontally placed cabinet body and fixed, the installation space of the electric elements is wider, and the assembly efficiency of the engineering control cabinet is improved.

Description

Engineering screen cabinet production line and control method thereof

Technical Field

The invention relates to the technical field of power equipment manufacturing, in particular to an engineering screen cabinet production line and a control method thereof.

Background

The existing engineering control screen (cabinet) is higher and higher in integration level, smaller in size, and the traditional unit operation modes of component installation, wiring and debugging are completed around the screen body (cabinet body), so that constructors are narrow in operation space, high in difficulty, low in production efficiency and high in manufacturing cost.

Disclosure of Invention

The invention aims to provide an engineering screen cabinet production line and a control method thereof, wherein the installation and wiring of electric elements are completed in an open environment under a standing state by the installation plate, and then the installation plate is placed and fixed in the screen cabinet body to complete the assembly of the whole screen cabinet body, so that the installation and wiring space of the electric elements are wider, and the back plate is more convenient to operate under the standing state, thereby reducing the operation difficulty of constructors and improving the production efficiency.

To solve the above technical problem, a first aspect of an embodiment of the present invention provides an engineering screen cabinet production line, including: the feeding assembly, the mounting assembly and the mounting plate overturning assembly which are sequentially connected further comprise: a cabinet body overturning assembly;

the mounting plate on the feeding assembly is erected from a horizontal state, and the mounting plate is inclined by a preset angle to be aligned with the mounting assembly and is transmitted to the mounting assembly;

after the components of the mounting plate on the mounting assembly are mounted, the mounting plate is conveyed to the mounting plate overturning assembly;

the mounting plate overturning assembly horizontally levels the mounting plate inclined by a preset angle;

the cabinet body overturning assembly horizontally flattens the engineering screen cabinet body from a standing state, and the installation plate on the installation plate overturning assembly is hung into the engineering screen cabinet body in a horizontal state and fixed, and then the engineering screen cabinet body stands up.

Further, the preset angle is an acute angle.

Further, the feeding assembly includes: the feeding device comprises a feeding base, a feeding platform, a feeding overturning device, a feeding conveying device and a feeding inclination preventing device;

one side of the feeding platform is rotationally connected with the feeding base, and the other side of the feeding platform is driven by the feeding turnover device to rotate upwards by a preset angle by taking the rotating connection end of the feeding turnover device and the feeding base as an axis;

one end of the feeding turnover device is fixedly connected with the feeding base, and the other end of the feeding turnover device is connected with the bottom of the feeding platform in a telescopic manner to drive the feeding platform to rotate;

the feeding conveying device is arranged at the top of the rotating connection side of the feeding platform and the feeding base and drives the mounting plate positioned on the feeding conveying device to move;

the feeding anti-tilting device is arranged at the top of the feeding platform and is detachably connected with the mounting plate at the top of the feeding platform.

Further, the mounting assembly includes: the device comprises a mounting platform, a mounting conveying device and a mounting inclination preventing device;

the plane where the mounting plate is placed by the mounting platform forms a preset angle with the horizontal plane;

the installation conveying device is arranged at the bottom of the plane where the installation conveying device is arranged, and drives the installation plate on the installation platform to move;

the installation anti-tilting device is arranged at the top of the plane where the installation conveying device is arranged, and is detachably connected with the installation plate on the installation platform.

Further, the mounting plate flipping assembly includes: the device comprises a mounting plate overturning base, a mounting plate overturning platform, a mounting plate overturning device, a mounting plate overturning conveying device and a mounting plate overturning inclination preventing device;

one side of the mounting plate overturning platform is rotationally connected with the mounting plate overturning base, and the other side of the mounting plate overturning platform is driven by the mounting plate overturning device to rotate upwards by the preset angle by taking the rotating connection end of the mounting plate overturning platform and the mounting plate overturning base as an axis;

one end of the mounting plate overturning device is fixedly connected with the mounting plate overturning base, and the other end of the mounting plate overturning device is connected with the bottom of the mounting plate overturning platform in a telescopic manner to drive the mounting plate overturning platform to rotate;

the mounting plate overturning and conveying device is arranged at the top of the rotating connection side of the mounting plate overturning platform and the mounting plate overturning base and drives the mounting plate positioned on the mounting plate overturning platform to move;

the mounting plate overturning anti-tilting device is arranged at the top of the mounting plate overturning platform and is detachably connected with the mounting plate positioned at the top of the mounting plate overturning platform.

Further, the cabinet body overturning assembly includes: a cabinet body overturning platform and a cabinet body overturning device;

the cabinet body overturning platform is arranged at the top of the cabinet body overturning device;

the cabinet body overturning device can rotate to drive the cabinet body overturning platform to rotate in the vertical reverse direction by the preset angle;

the engineering screen cabinet body is positioned at the top of the cabinet body overturning platform.

Accordingly, a second aspect of the embodiments of the present invention provides a method for controlling an engineering cabinet production line, which is used for controlling the engineering cabinet production line, and includes the following steps:

the horizontal mounting plate is conveyed to the feeding assembly through a mounting plate transferring tool, the mounting plate on the feeding assembly is erected by a preset angle value, and the mounting plate is conveyed to the mounting assembly;

after the components of the mounting plate on the mounting assembly are mounted, the mounting plate is conveyed to the mounting plate overturning assembly;

horizontally leveling the mounting plate on the mounting plate overturning assembly;

the engineering screen cabinet body on the cabinet body overturning assembly is horizontally placed in a standing state, the installation plate is lifted to the engineering screen cabinet body and fixed, the engineering screen cabinet body provided with the installation plate is lifted in a horizontal state, and the engineering screen cabinet body is moved to a testing station by a cabinet body rotating tool.

The technical scheme provided by the embodiment of the invention has the following beneficial technical effects:

the installation and wiring of the electrical components are completed in the open environment under the standing state of the installation plate, after the installation and wiring of the electrical components are completed on the installation plate, the installation plate is installed in the horizontally placed cabinet body, the installation plate and the cabinet body are fixed, the assembly of the whole engineering control screen cabinet is completed, namely, in the implementation process, the installation and wiring of the electrical components on the installation plate are completed outside the cabinet body, compared with the prior art, the installation space of the electrical components is wider, and the installation of the electrical components is more convenient under the standing state of the installation plate, so that the assembly of the engineering control screen cabinet is facilitated, and the assembly efficiency is improved.

Drawings

FIG. 1 is an overall schematic diagram of an industrial process cabinet production line in an embodiment of the invention;

FIG. 2a is a schematic diagram of a feeding assembly according to an embodiment of the present invention;

FIG. 2b is a schematic diagram of a second embodiment of a feeding assembly;

FIG. 3a is a schematic diagram of a mounting assembly in accordance with an embodiment of the present invention;

FIG. 3b is a schematic diagram of a second embodiment of the present invention;

FIG. 4a is a schematic view of a mounting plate flipping assembly in accordance with an embodiment of the invention;

FIG. 4b is a schematic diagram of a second embodiment of a mounting plate flipping assembly;

fig. 5 is a schematic structural view of a cabinet overturning assembly according to an embodiment of the invention.

Reference numerals:

1. the feeding device comprises a feeding assembly, 11, a feeding base, 12, a feeding platform, 13, a feeding turnover device, 14, a feeding transmission device, 15, a feeding anti-tilting device, 2, a mounting assembly, 21, a mounting platform, 22, a mounting transmission device, 23, a mounting anti-tilting device, 3, a mounting plate turnover assembly, 31, a mounting plate turnover base, 32, a mounting plate turnover platform, 33, a mounting plate turnover device, 34, a mounting plate turnover transmission device, 35, a mounting plate turnover anti-tilting device, 4, a cabinet turnover assembly, 41, a cabinet turnover platform, 42 and a cabinet turnover device.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the invention. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present invention.

Referring to fig. 1, a first aspect of an embodiment of the present invention provides an engineering screen cabinet production line, including: feeding subassembly 1, installation component 2 and mounting panel upset subassembly 3 that connect gradually still include: and a cabinet overturning assembly 4. The feeding assembly 1 is used for erecting the mounting plate on the feeding assembly from a horizontal state, inclining by a preset angle to be aligned with the mounting assembly 2 and conveying the mounting plate to the mounting assembly 2; after the components of the mounting plate on the mounting assembly 2 are mounted, the mounting plate is conveyed to the mounting plate overturning assembly 3; the mounting plate overturning assembly 3 horizontally levels the mounting plate inclined by a preset angle; the cabinet body overturning assembly 4 is used for enabling the engineering screen cabinet body to be horizontal from the standing state, and after the engineering screen cabinet body in the horizontal state is hung in the installation plate on the installation plate overturning assembly 3 and fixed, the engineering screen cabinet body is standing.

Further, referring to fig. 2a and 2b, the feeding assembly 1 includes: a feeding base 11, a feeding platform 12, a feeding overturning device 13, a feeding conveying device 14 and a feeding inclination preventing device 15. One side of the feeding platform 12 is rotationally connected with the feeding base 11, and the other side is driven by the feeding turnover device 13 to rotate upwards by a preset angle by taking the rotational connection end of the feeding turnover device with the feeding base 11 as an axis; one end of the feeding turnover device 13 is fixedly connected with the feeding base 11, and the other end of the feeding turnover device is connected with the bottom of the feeding platform 12 in a telescopic manner to drive the feeding platform 12 to rotate; the feeding conveying device 14 is arranged at the top of the rotating connection side of the feeding platform 12 and the feeding base 11 and drives the mounting plate positioned on the feeding conveying device to move; a feed anti-tilt device 15 is provided on top of the feed platform 12, which is detachably connected to a mounting plate located on top of the feed platform 12.

Further, referring to fig. 3a and 3b, the mounting assembly 2 includes: a mounting platform 21, a mounting transfer device 22 and a mounting anti-tilt device 23. The plane of the mounting platform 21 where the mounting plate is placed forms a preset angle with the horizontal plane; the installation conveying device 22 is arranged at the bottom of the plane where the installation platform 21 is used for placing the installation plate and drives the installation plate positioned on the installation platform 21 to move; the mounting anti-tilt means 23 is provided on top of the plane of the mounting platform 21 where the mounting plate is placed, which is detachably connected to the mounting plate located on the mounting platform 21.

Further, referring to fig. 4a and 4b, the mounting plate overturning assembly 3 includes: mounting plate upset base 31, mounting plate upset platform 32, mounting plate upset device 33, mounting plate upset conveying device 34 and mounting plate upset anti-tilt device 35. One side of the mounting plate overturning platform 32 is rotationally connected with the mounting plate overturning base 31, and the other side is driven by the mounting plate overturning device 33 to rotate upwards by a preset angle by taking the rotational connection end of the mounting plate overturning platform with the mounting plate overturning base 31 as an axis; one end of the mounting plate overturning device 33 is fixedly connected with the mounting plate overturning base 31, and the other end of the mounting plate overturning device is connected with the bottom of the mounting plate overturning platform 32 in a telescopic manner to drive the mounting plate overturning platform 32 to rotate; the mounting plate overturning and conveying device 34 is arranged at the top of the rotating connection side of the mounting plate overturning platform 32 and the mounting plate overturning base 31 and drives the mounting plate positioned on the mounting plate overturning platform to move; the mounting plate turnover anti-tilting device 35 is provided at the top of the mounting plate turnover platform 32, and is detachably connected with the mounting plate positioned at the top of the mounting plate turnover platform 32.

Further, referring to fig. 5, the cabinet overturning assembly 4 includes: a cabinet overturning platform 41 and a cabinet overturning device 42. The cabinet overturning platform 41 is arranged at the top of the cabinet overturning device 42; the cabinet overturning device 42 can rotate to drive the cabinet overturning platform 41 to rotate along the vertical reverse direction by a preset angle; the engineering screen cabinet body is positioned at the top of the cabinet body overturning platform 41.

Further, the preset angle is an acute angle.

Accordingly, a second aspect of the embodiments of the present invention provides a method for controlling an engineering cabinet production line, which is used for controlling the engineering cabinet production line, and includes the following steps:

step S100, the horizontal mounting plate is conveyed to the feeding assembly 1 through the mounting plate transferring tool, and the mounting plate on the feeding assembly 1 is erected by a preset angle value and conveyed to the mounting assembly 2.

Step S200, after the components of the mounting board on the mounting assembly 2 are mounted, the mounting board is transferred to the mounting board flipping assembly 3.

Step S300, the mounting plate on the mounting plate overturning assembly 3 is horizontally arranged.

Step S400, horizontally arranging the engineering screen cabinet body on the cabinet body overturning assembly 4 from a standing state, lifting the engineering screen cabinet body provided with the mounting plate to the engineering screen cabinet body after the mounting plate is lifted to be fixed, standing the engineering screen cabinet body provided with the mounting plate from the horizontal state, and moving the engineering screen cabinet body to a testing station after the cabinet body rotates a tool.

The embodiment of the invention aims to protect an engineering screen cabinet production line and a control method thereof, and has the following effects:

the installation and wiring of the electrical components are completed in the open environment under the standing state of the installation plate, after the installation and wiring of the electrical components are completed on the installation plate, the installation plate is installed in the horizontally placed cabinet body, the installation plate and the cabinet body are fixed, the assembly of the whole engineering control screen cabinet is completed, namely, in the implementation process, the installation and wiring of the electrical components on the installation plate are completed outside the cabinet body, compared with the prior art, the installation space of the electrical components is wider, and the installation of the electrical components is more convenient under the standing state of the installation plate, so that the assembly of the engineering control screen cabinet is facilitated, and the assembly efficiency is improved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explanation of the principles of the present invention and are in no way limiting of the invention. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present invention should be included in the scope of the present invention. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (6)

1. An engineering screen cabinet production line, characterized by comprising: feeding subassembly, installation component and the mounting panel upset subassembly that connect gradually still include: a cabinet body overturning assembly;

the feeding assembly is used for erecting the mounting plate on the feeding assembly from a horizontal state, inclining a preset angle to align with the mounting assembly and conveying the mounting plate to the mounting assembly;

after the components of the mounting plate on the mounting assembly are mounted, the mounting plate is conveyed to the mounting plate overturning assembly;

the mounting plate overturning assembly horizontally levels the mounting plate inclined by a preset angle;

the cabinet body overturning assembly horizontally levels the engineering screen cabinet body from a standing state, and the engineering screen cabinet body is standing after the installation plate on the installation plate overturning assembly is hung into the engineering screen cabinet body in the horizontal state and fixed;

the feeding assembly includes: the feeding device comprises a feeding base, a feeding platform, a feeding overturning device, a feeding conveying device and a feeding inclination preventing device;

one side of the feeding platform is rotationally connected with the feeding base, and the other side of the feeding platform is driven by the feeding turnover device to rotate upwards by a preset angle by taking the rotating connection end of the feeding turnover device and the feeding base as an axis;

one end of the feeding turnover device is fixedly connected with the feeding base, and the other end of the feeding turnover device is connected with the bottom of the feeding platform in a telescopic manner to drive the feeding platform to rotate;

the feeding conveying device is arranged at the top of the rotating connection side of the feeding platform and the feeding base and drives the mounting plate positioned on the feeding conveying device to move;

the feeding anti-tilting device is arranged at the top of the feeding platform and is detachably connected with the mounting plate at the top of the feeding platform.

2. The engineered cabinet production line of claim 1,

the preset angle is an acute angle.

3. The engineered cabinet production line of claim 1,

the mounting assembly includes: the device comprises a mounting platform, a mounting conveying device and a mounting inclination preventing device;

the plane where the mounting plate is placed by the mounting platform forms a preset angle with the horizontal plane;

the installation conveying device is arranged at the bottom of the plane where the installation platform is used for placing the installation plate and drives the installation plate on the installation platform to move;

the installation anti-tilting device is arranged on the top of the plane where the installation plate is placed by the installation platform and is detachably connected with the installation plate on the installation platform.

4. The engineered cabinet production line of claim 1,

the mounting plate upset subassembly includes: the device comprises a mounting plate overturning base, a mounting plate overturning platform, a mounting plate overturning device, a mounting plate overturning conveying device and a mounting plate overturning inclination preventing device;

one side of the mounting plate overturning platform is rotationally connected with the mounting plate overturning base, and the other side of the mounting plate overturning platform is driven by the mounting plate overturning device to rotate upwards by the preset angle by taking the rotating connection end of the mounting plate overturning platform and the mounting plate overturning base as an axis;

one end of the mounting plate overturning device is fixedly connected with the mounting plate overturning base, and the other end of the mounting plate overturning device is connected with the bottom of the mounting plate overturning platform in a telescopic manner to drive the mounting plate overturning platform to rotate;

the mounting plate overturning and conveying device is arranged at the top of the rotating connection side of the mounting plate overturning platform and the mounting plate overturning base and drives the mounting plate positioned on the mounting plate overturning platform to move;

the mounting plate overturning anti-tilting device is arranged at the top of the mounting plate overturning platform and is detachably connected with the mounting plate positioned at the top of the mounting plate overturning platform.

5. The engineered cabinet production line of claim 1,

the cabinet body overturning assembly comprises: a cabinet body overturning platform and a cabinet body overturning device;

the cabinet body overturning platform is arranged at the top of the cabinet body overturning device;

the cabinet body overturning device can rotate to drive the cabinet body overturning platform to rotate in the vertical reverse direction by the preset angle;

the engineering screen cabinet body is positioned at the top of the cabinet body overturning platform.

6. A method for controlling an engineering screen cabinet production line according to any one of claims 1 to 5, comprising the steps of:

the horizontal mounting plate is conveyed to the feeding assembly through a mounting plate transferring tool, the mounting plate on the feeding assembly is erected by a preset angle value, and the mounting plate is conveyed to the mounting assembly;

after the components of the mounting plate on the mounting assembly are mounted, the mounting plate is conveyed to the mounting plate overturning assembly;

horizontally leveling the mounting plate on the mounting plate overturning assembly;

the engineering screen cabinet body on the cabinet body overturning assembly is horizontally placed in a standing state, the installation plate is lifted to the engineering screen cabinet body and fixed, the engineering screen cabinet body provided with the installation plate is lifted in a horizontal state, and the engineering screen cabinet body is moved to a testing station by a cabinet body rotating tool.