CN211828694U

CN211828694U - High-precision overturning assembly table

Info

Publication number: CN211828694U
Application number: CN202020366793.XU
Authority: CN
Inventors: 杨振
Original assignee: Changzhou Zhuoyi Welding Equipment Co ltd
Current assignee: Changzhou Zhuoyi Welding Equipment Co ltd
Priority date: 2020-03-22
Filing date: 2020-03-22
Publication date: 2020-10-30
Anticipated expiration: 2030-03-22

Abstract

The utility model relates to a high accuracy upset assembly bench specifically is a upset assembly bench for base plate assembly. The device is used for realizing the fitting assembly work between the upper substrate and the lower substrate. The turnover assembly platform comprises a base platform of a turnover assembly platform, a fixing plate for fixing an upper substrate, a turnover plate for fixing a lower substrate, and a turnover driving assembly for realizing buckling of the turnover plate in a turnover manner; the fixed plate is arranged on the upper surface of the base station, the turnover plate is arranged on one side of the upper surface of the base station, the fixed plate and the turnover plate are both provided with air holes and air grooves, and the fixing of the base plate is realized through the adsorption of a vacuum adsorption device; and the turnover plate is connected with the base station through the turnover driving assembly, and the turnover plate is changed from an open state with the fixed plate to a closed state through the turnover driving assembly, so that the upper substrate is attached to the lower substrate.

Description

High-precision overturning assembly table

Technical Field

The utility model relates to a high accuracy upset assembly bench specifically is a upset assembly bench for base plate assembly.

Background

Solar energy is a renewable energy source. It refers to the heat radiation energy of the sun, and the main expression is the solar ray. At present, two modes of photovoltaic and photo-thermal are adopted for collecting solar energy. And the substrate for collecting solar energy is a main component of the whole solar energy device. The solar substrate unit is composed of an upper substrate and a lower substrate, and the upper substrate and the lower substrate need to be attached and assembled in production. In production, the upper and lower substrates are required to be bonded together. In the current practical production, the gluing operation of the upper substrate and the lower substrate is manually finished, so that the time and labor are wasted, the production efficiency is low, and the gluing precision is poor.

Disclosure of Invention

The utility model discloses designed a flip structure's high accuracy assembly bench according to the characteristics of base plate assembly, be used for realizing the laminating assembly work between the lower substrate.

In order to achieve the purpose, the invention adopts the following technical scheme that the turnover assembly platform comprises a base station of the turnover assembly platform, a fixing plate for fixing an upper base plate, a turnover plate for fixing a lower base plate and a turnover driving assembly for realizing buckling of the turnover plate in a turnover mode.

The fixed plate is installed on the upper surface of the base station, the turnover plate is installed on one side of the upper surface of the base station, the fixed plate and the turnover plate are both provided with air holes and air grooves, and the base plate is fixed through adsorption of a vacuum adsorption device.

And the turnover plate is connected with the base station through the turnover driving assembly, and the turnover plate is changed from an open state with the fixed plate to a closed state through the turnover driving assembly, so that the upper substrate is attached to the lower substrate.

In a preferred embodiment of the present invention, the fixing plate and the base are fastened together by screws.

As another preferred scheme of the invention, the other side of the upper surface of the base station is provided with a pressing mechanism, and the pressing mechanism is used for applying pressure to enable the upper substrate and the lower substrate to be better attached when the turnover plate with the lower substrate is buckled with the fixing plate with the upper substrate; the pressing mechanism comprises a rotary pressing cylinder, and the rotary pressing cylinder is arranged above the base station through a cylinder mounting support; when the returning face plate lock was on the fixed plate, the action of rotatory cylinder that compresses tightly, the compressing tightly pole of cylinder was withdrawed rotatory 90 degrees and is compressed tightly, realizes going up the better laminating of base plate and upper substrate.

Further, the rotary compacting cylinder employs the rotary compacting cylinder of MK2B40 of SMC.

Further, the overturning driving assembly comprises an overturning shaft, the overturning shaft is mounted on a mounting seat through a bearing support, and the mounting seat is mounted on a base station through a bolt; the turnover shaft is connected with the turnover plate through a turnover mounting arm; the turnover shaft is driven by a servo motor and is connected with the servo motor through a coupler.

Furthermore, the number of the turnover mounting arms is two, one end of each turnover mounting arm is fixedly connected with the turnover plate, and the other end of each turnover mounting arm is connected with the turnover shaft through a key; and the turning shaft penetrates through one end of the turning mounting arm to be locked and limited by a nut.

Furthermore, the periphery of the fixing plate is provided with limiting lugs which are used for limiting and positioning when the upper substrate is placed.

Furthermore, convex limiting blocks are arranged on the periphery of the turnover plate and used for limiting and positioning when the lower substrate is placed.

Compared with the prior art, the invention has the beneficial effects.

The turnover assembly table is driven by a servo motor, so that the turnover angle and the turnover operation speed are controlled with high precision. The overturning shaft adopts a fixed bearing support mode, the overturning transmission precision is high, and meanwhile, the overturning platform is compact in structural design, small in occupied area and convenient to operate manually. The overturning platform is provided with a pressing tool after assembly, so that the assembly work can be completed more reliably. Meanwhile, vacuum adsorption air grooves are formed in the turnover plate and the fixing plate, so that products are prevented from sliding and shifting. The structural design adopts a module mode, and equipment maintenance and accessories are convenient to replace. The overturning platform has the advantages of simple structure, low manufacturing cost, easy maintenance and overhaul, controllable and convenient overturning platform and easy operation.

Drawings

The invention is further described with reference to the following figures and detailed description. The scope of the invention is not limited to the following expressions.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged schematic view at a in fig. 1.

Fig. 3 is an enlarged schematic view at B in fig. 1.

In the figure, 1 is a base station, 2 is a mounting base, 3 is a turning shaft, 4 is a turning mounting arm, 5 is a limiting block, 6 is a turning plate, 7 is a bearing support, 8 is a coupler, 9 is a servo motor, 10 is a fixing plate, 11 is a limiting lug, 12 is a cylinder mounting support, 13 is a rotary compression cylinder, 14 is an air hole, and 15 is an air groove.

Detailed Description

As shown in fig. 1-3, the present invention includes a base 1 of a turn-over assembly table, a fixing plate 10 for fixing an upper substrate, a turn-over plate 6 for fixing a lower substrate, and a turn-over driving assembly for turning over the turn-over plate 6 to achieve buckling.

The fixed plate 10 is installed on the upper surface of the base station 1, the turnover plate 6 is installed on one side of the upper surface of the base station 1, the fixed plate 10 and the turnover plate 6 are both provided with air holes 14 and air grooves 15, and the base plate is fixed through adsorption of a vacuum adsorption device.

And the turnover plate 6 is connected with the base station 1 through a turnover driving assembly, and the turnover plate 6 is changed from an open state with the fixed plate 10 into a closed state through the turnover driving assembly, so that the upper substrate and the lower substrate are attached.

In a preferred embodiment of the present invention, the fixing plate 10 is fastened to the base 1 by screws.

As another preferred scheme of the present invention, the other side of the upper surface of the base station 1 is provided with a pressing mechanism, and the pressing mechanism is used for applying pressure to enable the upper substrate and the lower substrate to be better attached when the turning plate 6 with the lower substrate is buckled with the fixing plate 10 with the upper substrate; the pressing mechanism comprises a rotary pressing cylinder 13, and the rotary pressing cylinder 13 is arranged above the base station 1 through a cylinder mounting support 12; when the turning plate 6 is buckled on the fixing plate 10, the rotary pressing cylinder 13 acts, the pressing rod of the cylinder is retracted to rotate by 90 degrees and is pressed, and the lower substrate and the upper substrate are better attached.

Further, the rotary compacting cylinder 13 employs the rotary compacting cylinder 13 of MK2B40 of SMC.

Further, the overturning driving assembly comprises an overturning shaft 3, the overturning shaft 3 is mounted on the mounting seat 2 through a bearing support 7, and the mounting seat 2 is mounted on the base platform 1 through a bolt; the turnover shaft 3 is connected with a turnover plate 6 through a turnover mounting arm 4; the turnover shaft 3 is driven by a servo motor 9, and the turnover shaft 3 is connected with the servo motor 9 through a coupler 8.

Furthermore, two overturning mounting arms 4 are provided, one ends of the two overturning mounting arms 4 are fixedly connected with the overturning plate 6, and the other ends of the two overturning mounting arms 4 are connected with the overturning shaft 3 through keys; and the turning shaft 3 penetrates through one end of the turning mounting arm 4 to be locked and limited by a nut.

Furthermore, the periphery of the fixing plate 10 is provided with a limiting bump 11 for limiting and positioning when the upper substrate is placed.

Furthermore, convex limiting blocks 5 are arranged on the periphery of the turnover plate 6 and used for limiting and positioning when the lower substrate is placed.

And (5) action process.

1. The servo motor 9 drives the turnover shaft 3 to realize the turnover action of the turnover plate 6.

2. The limiting block 5 and the limiting lug 11 realize the limiting function of the workpiece.

3. When the turnover plate 6 and the fixing plate 10 are pressed, the rotary pressing cylinder 13 presses the turnover plate 6 and the fixing plate 10 together, so that the assembly work of the workpiece is realized.

4. The support planes of the turnover plate 6 and the fixing plate 10 are provided with air holes 14 and air grooves 15 to realize the action of negative pressure vacuum adsorption.

It should be understood that the detailed description of the present invention is only for illustrating the present invention and is not limited by the technical solutions described in the embodiments of the present invention, and those skilled in the art should understand that the present invention can be modified or substituted equally to achieve the same technical effects; as long as the use requirements are met, the method is within the protection scope of the invention.

Claims

1. A high-precision overturning assembly table comprises a base table of the overturning assembly table, a fixing plate for fixing an upper substrate, an overturning plate for fixing a lower substrate and an overturning driving assembly for realizing buckling of the overturning plate in an overturning way; the device is characterized in that the fixed plate is arranged on the upper surface of the base station, the turnover plate is arranged on one side of the upper surface of the base station, the fixed plate and the turnover plate are both provided with air holes and air grooves, and the fixation of the substrate is realized through the adsorption of a vacuum adsorption device;

2. A high precision flip assembly station as in claim 1, wherein: the fixing plate and the base station are fastened into a whole through screws.

3. A high precision flip assembly station as in claim 1, wherein: the other side of the upper surface of the base station is provided with a pressing mechanism which is used for applying pressure to enable the upper substrate and the lower substrate to be better attached when the turnover plate with the lower substrate is buckled with the fixed plate with the upper substrate; the pressing mechanism comprises a rotary pressing cylinder, and the rotary pressing cylinder is arranged above the base station through a cylinder mounting support; when the returning face plate lock was on the fixed plate, the action of rotatory cylinder that compresses tightly, the compressing tightly pole of cylinder was withdrawed rotatory 90 degrees and is compressed tightly, realizes going up the better laminating of base plate and upper substrate.

4. A high precision flip assembly station as in claim 3 wherein: the rotary compaction cylinder adopts a rotary compaction cylinder of MK2B40 of SMC.

5. A high precision flip assembly station as in claim 1, wherein: the overturning driving assembly comprises an overturning shaft, the overturning shaft is arranged on an installation seat through a bearing support, and the installation seat is arranged on a base station through a bolt; the turnover shaft is connected with the turnover plate through a turnover mounting arm; the turnover shaft is driven by a servo motor and is connected with the servo motor through a coupler.

6. A high precision flip assembly station as in claim 5 wherein: the number of the turnover mounting arms is two, one end of each turnover mounting arm is fixedly connected with the turnover plate, and the other end of each turnover mounting arm is connected with the turnover shaft through a key; and the turning shaft penetrates through one end of the turning mounting arm to be locked and limited by a nut.

7. A high precision flip assembly station as in claim 1, wherein: and the periphery of the fixed plate is provided with limiting lugs which are used for limiting and positioning when the upper substrate is placed.

8. A high precision flip assembly station as in claim 1, wherein: convex limiting blocks are arranged on the periphery of the turnover plate and used for limiting and positioning when the lower substrate is placed.