CN222449889U - Compressing and positioning device for ultrathin film flexible workpiece - Google Patents

Abstract

The utility model discloses a clamping and positioning device for ultra-thin film flexible workpieces, comprising: a bearing platform, on which a bearing glass is arranged; a pressure plate module comprising: a glass pressure plate; and a glass frame connected to the glass pressure plate on all sides; a connecting base, assembled and fixed on the bearing platform; a rotating connection module, respectively connected to the connecting base and one side of the glass frame, for allowing the glass frame to rotate relative to the connecting base; a nitrogen buffer pressure rod, one end of which is rotatably connected to the connecting base, and the other end of which is rotatably connected to the rotating connection module. The utility model proposes a clamping and positioning device suitable for ultra-thin film flexible workpieces, which can clamp and position the product and ensure the flatness of the product after being clamped and fixed, and the clamping and fixing is firm, thereby ensuring the measurement accuracy of the product.

Description

Compressing and positioning device for ultrathin film flexible workpiece

Technical Field

The utility model belongs to the technical field of compression positioning of ultrathin die products, and particularly relates to a compression positioning device structure for an ultrathin film flexible workpiece.

Background

With the vigorous development of new energy industry, fuel cells are used as online power generation devices for converting chemical energy into electric energy, and the fuel cell engine is considered as an important development direction of automobile power devices in the future due to the fact that the efficiency limit of the traditional internal combustion engine is broken through. The thickness of the membrane electrode, which is an important part in the single fuel cell, can reach 50um as the thinnest, and the requirements on the size control and the installation position degree also directly influence the safety and the performance of the whole fuel cell.

For the die product of the type, the thickness is very thin and soft, when the die product is detected, the detection precision is very easy to influence if the die product is not positioned well, and because the thickness of the ultra-thin die product is thinner, the die product is difficult to position and compress by adopting the existing compressing device, and the die product is damaged or the flatness is changed due to instant compression to the product in the compressing process.

The above information disclosed in this background section is only for enhancement of understanding of the background section of the application and therefore it may not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of utility model

Aiming at the technical problems existing in the prior art when the ultra-thin film type products are positioned and pressed, the utility model provides the pressing and positioning device suitable for the ultra-thin film, which can be used for pressing and positioning the products, ensuring the flatness of the products after being pressed and fixed, ensuring the firm pressing and fixing and ensuring the measurement precision of the products.

In order to achieve the above-mentioned utility model/design purpose, the utility model adopts the following technical scheme to realize:

the utility model provides an ultrathin film compliance work piece is with compressing tightly positioner, includes:

A bearing table, on which bearing glass is arranged;

the clamp plate module includes:

A glass pressing plate;

And a glass frame connected around the glass pressing plate;

The connecting matrix is assembled and fixed on the bearing table;

The rotating connection module is respectively connected with one side of the connection matrix and one side of the glass frame and is used for enabling the glass frame to rotate relative to the connection matrix;

One end of the nitrogen buffer compression bar is rotationally connected to the connecting base body, and the other end is rotationally connected to the rotating connecting module.

In some embodiments of the application, the elastic member has a thickness of 50um to 1000um.

In some embodiments of the present application, the rotational connection module includes:

rotating the connecting piece;

The switching part is fixedly assembled on one side of the glass frame and is rotationally connected with the rotating connecting piece;

the connecting base body is arranged on one side of the rotary connection and is in rotary connection with the rotary connection piece.

In some embodiments of the present application, a base connecting portion is formed at an end of the connecting base, and a first penetrating portion is formed on the base connecting portion;

The switching part is clamped on one side of the glass frame and extends along the length direction of the glass frame, and comprises an extending part exceeding the end part of the glass frame, which is arranged opposite to the base body connecting part, and a second penetrating part is arranged on the extending part;

A rotational connecting member disposed between the protruding portion and the base connecting portion, in which a first rotational bearing and a second rotational bearing are provided;

A first insertion pin inserted into the first rotation bearing through the first passing portion;

And a second insertion pin inserted into the second rotation bearing through the second passing portion.

In some embodiments of the present application, the adaptor part includes:

The glass frame comprises a first adapter plate and a second adapter plate connected with the first adapter plate, wherein the second adapter plate is perpendicular to the first adapter plate, a clamping part clamped on the glass frame is formed between the first adapter plate and the second adapter plate, and a locking part used for locking the adapter part to the glass frame is arranged on the first adapter part.

In some embodiments of the application, a first mount is fitted at an end of the adapter member opposite the extension, and a first connection bearing is fitted in the first mount;

A second mounting seat is arranged at one end of the connecting base body opposite to the connecting position of the base body, and a second connecting bearing is assembled in the second mounting seat;

One end of the nitrogen buffer compression bar is rotationally connected with the first connecting bearing, and the other end of the nitrogen buffer compression bar is rotationally connected with the second connecting bearing.

In some embodiments of the application, a lift handle is provided on the glass frame.

In some embodiments of the application, the flatness of the carrier glass and the ballast glass is 0.04mm or less, and the parallelism of the top surface of the carrier glass and the top surface of the ballast glass is-0.04-0.04 mm.

Compared with the prior art, the utility model has the advantages and positive effects that:

According to the compression positioning device for the ultrathin film flexible workpiece, when the glass pressing plate is in an open certain angle state, an ultrathin film product can be placed on bearing glass, then the glass frame and the glass pressing plate are pulled to move downwards, the glass frame and the glass pressing plate rotate relative to the rotating connecting piece, the rotating connecting piece rotates relative to the connecting base body, the rod body of the nitrogen buffering pressing rod is continuously pulled to extend, the glass pressing plate and the glass frame structure can slowly and stably move downwards due to the buffering effect of the nitrogen buffering pressing rod, and finally the glass pressing plate and the glass frame structure are smoothly pressed on the ultrathin film product on the bearing glass, so that the stability and the damage-free direction of the ultrathin film pressing are ensured, the problem that the ultrathin film product is damaged or poor in flatness due to the fact that the ultrathin film product is pressed on the ultrathin film product rapidly is solved, and the later detection accuracy of the ultrathin film product in the compression positioning device is ensured.

Other features and advantages of the present utility model will become apparent upon review of the detailed description of the utility model in conjunction with the drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of an embodiment of a pressing and positioning device for ultrathin film flexible workpieces according to the utility model;

FIG. 2 is a schematic diagram showing the cooperation of a pressing plate module, a rotary connecting module and a nitrogen buffer pressing rod in an embodiment of the pressing and positioning device for ultrathin film flexible workpieces;

FIG. 3 is a schematic diagram II of a structure of a pressing plate module, a rotary connecting module and a nitrogen buffer pressing rod matched with one embodiment of the pressing and positioning device for ultrathin film flexible workpieces;

FIG. 4 is a cross-sectional view taken along A-A of FIG. 3;

FIG. 5 is a B-B cross-sectional view of FIG. 3;

FIG. 6 is a schematic diagram showing the front structure of a platen module of one embodiment of a pressing and positioning device for ultrathin film flexible workpieces according to the utility model;

FIG. 7 is a schematic view of the back side structure of a platen module of one embodiment of the pressing and positioning device for ultrathin film flexible workpieces according to the present utility model;

Fig. 8 is a schematic structural diagram of the cooperation of the nitrogen buffer compression bar and the rotary connection module of an embodiment of the compression positioning device for ultrathin film flexible workpieces.

In the figure, 100 parts of bearing glass, 210 parts of glass pressing plates, 220 parts of glass frames, 300 parts of connecting matrixes, 310 parts of connecting matrixes, 311 parts of first penetrating parts, 400 parts of nitrogen buffer pressing rods, 500 parts of elastic components, 620 parts of switching components, 621 parts of extending parts, 622 parts of second penetrating parts, 623 parts of first switching boards, 624 parts of second switching boards, 630 parts of rotating connecting pieces, 710 parts of first rotating bearings, 720 parts of second rotating bearings, 730 parts of first inserting pins, 740 parts of second inserting pins, 810 parts of first mounting seats, 820 parts of second mounting seats, 900 parts of lifting handles.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that the terms "mounted," "connected," and "coupled" are to be construed broadly, as well as, for example, fixedly coupled, detachably coupled, or integrally coupled, unless otherwise specifically indicated and defined. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art. In the description of the embodiments, a particular feature, structure, material, or characteristic may be combined in any suitable manner in one or more embodiments or examples.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

The embodiment of the pressing and positioning device for the ultrathin film flexible workpiece can be used for pressing and positioning the ultrathin film, so that the pressing and positioning are firm, and the ultrathin film product can be ensured not to be damaged smoothly in the pressing process.

The compressing and positioning device for the ultrathin film flexible workpiece comprises:

The bearing table is a bearing machine table and is used for playing a main bearing and supporting role.

A carrier glass 100 is disposed on the carrier table, and the carrier glass 100 is mainly used for preventing ultrathin film products.

The clamp plate module includes:

When the glass pressing plate 210 is arranged, the glass pressing plate 210 with high strength and high flatness is selected for the glass pressing plate 210, so that the whole pressing and positioning device is stable and durable in structure and good in pressing flatness of an ultrathin film.

And a glass frame 220 connected around the glass pressing plate 210;

the glass platen 210 is fixedly mounted on the glass frame 220. To ensure flatness of the laminated ultrathin film product of the glass platen 210, the bottom surface of the glass platen 210 is set flush with the bottom surface of the glass frame 220.

In some embodiments of the present application, the glass frame 220 includes:

the first frame plate is provided with 2 blocks and is arranged in parallel relatively;

The first frame plate is formed with first concave portions at top surfaces of two ends thereof and is formed with second concave portions at bottom surface positions thereof.

And the second frame plate is provided with 2 blocks, and two ends of the second frame plate are respectively erected at the first concave part and are locked and fixed with the first frame plate through screws.

The glass platen 210 is then inserted in the second recess and bonded to the first frame plate by glue.

In some embodiments of the present application, a lifting handle 900 is provided on the glass frame 220, and a user can conveniently lift the glass frame 220 and the glass pressing plate 210 to place a product by using the provided lifting handle 900.

The carrying handle 900 is arranged on one of the first frame plates.

A connection base 300 assembled and fixed on the bearing table;

the connection base 300 is a connection base plate that is arranged to extend along the length of the second frame plate and is fastened to the carrying platform by means of screws.

A rotation connection module connected to one side of the connection base 300 and the glass frame 220, respectively, for enabling the glass frame 220 to rotate with respect to the connection base 300;

in some embodiments of the present application, the rotational connection module includes:

rotating the connector 630;

An adapter 620 fixedly installed on one side of the glass frame 220 and rotatably connected to the rotary connector 630;

The connection base 300 is disposed at one side of the rotational connection and is rotatably connected with the rotational connection 630.

One end of the nitrogen buffer compression bar 400 is rotatably connected to the connection base 300, and the other end is rotatably connected to the rotary connection module.

Specifically, the nitrogen buffer compression bar 400 is rotatably connected to the connection base 300 at one end, and is rotatably connected to the adaptor 620 at one end.

When the ultra-thin film product needs to be pressed and positioned, the lifting handle 900 is pulled by a hand, and the lifting handle 900 drives the glass frame 220, the glass pressing plate 210 and the adapting part 620 fixedly connected with the glass frame 220 to rotate relative to the rotating connecting piece 630, and the rotating connecting piece 630 rotates relative to the connecting base 300;

Meanwhile, since one end of the nitrogen buffer compression bar 400 is rotatably connected to the adapter component 620, and one end is rotatably connected to the connection base 300, when the adapter component 620 is driven to move upwards, the nitrogen buffer compression bar 400 is also driven to move, and when the nitrogen buffer compression bar 400 is specifically connected, the nitrogen buffer compression bar 400 comprises a cylinder body and a rod body connected to the cylinder body, the cylinder body is rotatably connected to the connection base 300, and the rod body is rotatably connected to the adapter component 620.

The rod body is driven to contract relative to the lever body when the switching part 620 moves upwards.

At this time, the glass pressing plate 210 is in an opened state with a certain angle, the ultrathin film product can be placed on the bearing glass 100, then the glass frame 220 and the glass pressing plate 210 are pulled to move downwards, the glass frame 220 and the glass pressing plate 210 rotate relative to the rotating connecting piece 630, the rotating connecting piece 630 rotates relative to the connecting base 300, the rod body of the nitrogen buffering pressing rod 400 is continuously pulled to extend, the structure of the glass pressing plate 210 and the glass frame 220 can move downwards slowly and stably due to the buffering action of the nitrogen buffering pressing rod 400, and finally the structure of the ultrathin film product on the bearing glass 100 is pressed downwards smoothly, so that the stability and the damage-free direction of the ultrathin film pressing are ensured, the problem that the ultrathin film product is damaged or poor in flatness is not caused because the ultrathin film product is pressed downwards rapidly is ensured, and the detection accuracy of the ultrathin film product in the later stage of the pressing positioning device is ensured.

In order to make the glass pressing plate 210 drop down smoothly as much as possible, the rotating connection modules and the nitrogen buffer pressing rod 400 structure can be arranged on both sides of the glass frame 220 at the same time when the device is arranged, and the nitrogen buffer pressing rod structure can be directly realized by adopting the structure of the prior art, which is not described herein.

In some embodiments of the present application, an elastic member 500 is further included, and the elastic member 500 is disposed at a bottom surface position of the glass frame 220, and the elastic member 500 mainly plays a role in buffering the glass frame 220 and the glass pressing plate 210 during the pressing down process.

When the glass frame 220 and the glass pressing plate 210 are pulled to be lowered, the glass pressing plate 210 is continuously close to the ultrathin film, because the ultrathin film thickness is extremely thin, if the glass pressing plate 210 is directly pressed down to contact with the ultrathin film, the force above the ultrathin film can directly act on the ultrathin film, damage or flatness change of the ultrathin film can possibly occur, through the arranged elastic component 500, the elastic component 500 can firstly contact with the bearing glass 100 in the process of downward moving of the glass pressing plate 210, an elastic buffer force is provided, the glass pressing plate 210 can be finally and gently pressed on the ultrathin film, damage to the ultrathin film is avoided, and the flatness of the ultrathin film which is pressed and positioned is ensured.

In addition, the elastic member 500 is provided to prevent the glass pressing plate 210 from being damaged by contact with the carrier glass 100.

In some embodiments of the present application, the elastic member 500 is an elastic sponge having a thickness of 50um to 1000um.

In some embodiments of the present application, a base connection part 310 is formed at an end of the connection base 300, a first through part 311 is formed on the base connection part 310, and the first through part 311 is a first through hole.

A switching member 620, which is fastened to one side of the glass frame 220 and extends along the length direction of the glass frame 220, and includes an extension portion 621 extending beyond the end of the glass frame 220, which is disposed opposite to the base connecting portion 310, and a second penetrating portion 622 is disposed on the extension portion 621;

The adaptor 620 is an adaptor connection board, and is clamped on the side of the glass frame 220 and locked and fixed with the glass frame 220.

One end of the switching part 620 is connected to the middle of the glass frame 220, and the other end extends outward.

The protruding portion 621 is a protruding end, and a second penetrating portion 622 is disposed above the protruding portion, and the second penetrating portion 622 is a second penetrating hole.

A rotation link 630 disposed between the protrusion 621 and the base link 310, a first rotation bearing 710 and a second rotation bearing 720 being provided in the rotation link 630;

The rotational connector 630 is a rotational connector block, and the first and second rotational bearings 710 and 720 are disposed along a length direction thereof.

A first insertion pin 730 inserted into the first rotation bearing 710 through the first passing portion 311;

A second insertion pin 740 is inserted into the second rotation bearing 720 through the second passing portion 622.

The first insert pin 730 and the first pass-through portion 311 are an interference fit that fits within the inner race of the first rolling bearing 710;

the second insert pin 740 and the second pass-through 622 are interference fit, which fits within the inner race of the second rotational bearing 720.

Thus, when the glass frame 220 is lifted, the adapting member 620 can rotate relative to the rotating connector 630, and the rotating connector 630 can rotate relative to the connecting base 300, so as to open and close the glass frame 220 and the glass pressing plate 210.

When the glass pressing plate 210 is opened, the end part makes the whole glass pressing plate 210 upwards deviate through the double bearings, and the rotating connecting point is at the position far away from the end part of the glass frame 220, namely the position far away from the bearing glass 100, so that the glass pressing plate 210 and the bearing glass 100 can be prevented from friction damage to the clamp in the rotating process, the glass pressing plate 210 is driven to be opened through the double bearings in a rotating fit mode, and the ultra-thin die product is convenient to take and place.

The compressing and positioning device for the ultrathin film flexible workpiece is simple in structure, high in operation safety and convenient to take and place ultrathin film products.

In some embodiments of the present application, the adaptor 620 includes:

The first adapter plate 623 and the second adapter plate 624 connected with the first adapter plate 623, the second adapter plate 624 is perpendicular to the first adapter plate 623, a clamping part clamped on the glass frame 220 is formed between the first adapter plate 623 and the second adapter plate 624, a locking part for locking the adapter component 620 to the glass frame 220 is arranged on the first adapter part, the locking part is a locking through hole, a threaded hole can be arranged on the glass frame 220, and when the glass frame 220 is fixed, the glass frame is screwed into the threaded hole through the locking through hole by a screw.

In some embodiments of the present application, a first mounting seat 810 is mounted at an end of the adapting member 620 opposite to the protruding portion 621, and a first connection bearing is mounted in the first mounting seat 810;

A second mounting seat 820 is provided at an end of the connection base 300 opposite to the base connection portion 310, and a second connection bearing is assembled in the second mounting seat 820;

One end of the nitrogen buffer compression bar 400 is rotatably connected with the first connecting bearing, and the other end is rotatably connected with the second connecting bearing.

In some embodiments of the present application, the flatness of the carrier glass 100 and the ballast glass is 0.04mm or less, and the parallelism of the top surface of the carrier glass 100 and the top surface of the ballast glass is-0.04-0.04 mm.

In order to ensure that the flatness of the carrier glass 100 and the ballast glass is less than 0.04mm, the flatness of the glass plate for press-fitting the ultra-thin film can be ensured, and the overall flatness of the pressed ultra-thin film can be effectively improved.

The roughness of the bearing glass 100 and the ballasted glass is set to be smaller than 1.6um, so that the surfaces of the two glass plates can be kept smooth, reflection and refraction can be avoided by controlling the surface roughness, and the detection precision of the ultrathin film product is improved.

The parallelism of the top surface of the bearing glass 100 and the top surface of the ballast glass is-0.04-0.04 mm so as to ensure the parallelism of the top surface and the ballast glass and further ensure the flatness of the lamination of the ultrathin film.

The above embodiments are only for illustrating the technical solution of the present utility model, but not for limiting the same, and although the present utility model has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art that modifications may be made to the technical solution described in the above embodiments or equivalents may be substituted for some of the technical features thereof, and the modifications or substitutions do not depart from the spirit and scope of the technical solution as claimed in the present utility model.

Claims (9)

1. The utility model provides a ultrathin film compliance work piece is with compressing tightly positioner which characterized in that includes:

A bearing table, on which bearing glass is arranged;

the clamp plate module includes:

A glass pressing plate;

And a glass frame connected around the glass pressing plate;

The connecting matrix is assembled and fixed on the bearing table;

The rotating connection module is respectively connected with one side of the connection matrix and one side of the glass frame and is used for enabling the glass frame to rotate relative to the connection matrix;

One end of the nitrogen buffer compression bar is rotationally connected to the connecting base body, and the other end is rotationally connected to the rotating connecting module.

2. The pressing and positioning device for an ultrathin film flexible workpiece according to claim 1, further comprising an elastic member provided at a bottom surface position of the glass frame.

3. The compression positioning device for an ultrathin film flexible workpiece according to claim 2, wherein the thickness of the elastic component is 50um-1000um.

4. The pressing and positioning device for ultrathin film flexible workpieces according to claim 2, wherein,

The rotation connection module comprises:

rotating the connecting piece;

The switching part is fixedly assembled on one side of the glass frame and is rotationally connected with the rotating connecting piece;

the connecting base body is arranged on one side of the rotary connection and is in rotary connection with the rotary connection piece.

5. The pressing and positioning device for ultrathin film flexible workpieces according to claim 4, wherein,

A substrate connecting part is formed at the end part of the connecting substrate, and a first penetrating part is formed on the substrate connecting part;

The switching part is clamped on one side of the glass frame and extends along the length direction of the glass frame, and comprises an extending part exceeding the end part of the glass frame, which is arranged opposite to the base body connecting part, and a second penetrating part is arranged on the extending part;

A rotational connecting member disposed between the protruding portion and the base connecting portion, in which a first rotational bearing and a second rotational bearing are provided;

A first insertion pin inserted into the first rotation bearing through the first passing portion;

And a second insertion pin inserted into the second rotation bearing through the second passing portion.

6. The pressing and positioning device for ultrathin film flexible workpieces according to claim 5, wherein,

The switching part comprises:

the glass frame comprises a first adapter plate and a second adapter plate connected with the first adapter plate, wherein the second adapter plate is perpendicular to the first adapter plate, a clamping part clamped on the glass frame is formed between the first adapter plate and the second adapter plate, and a locking part used for locking the adapter part to the glass frame is arranged on the first adapter plate.

7. The pressing and positioning device for ultrathin film flexible workpieces according to claim 5, wherein,

A first mounting seat is assembled at one end of the switching part opposite to the extending part, and a first connecting bearing is assembled in the first mounting seat;

A second mounting seat is arranged at one end of the connecting base body opposite to the connecting position of the base body, and a second connecting bearing is assembled in the second mounting seat;

One end of the nitrogen buffer compression bar is rotationally connected with the first connecting bearing, and the other end of the nitrogen buffer compression bar is rotationally connected with the second connecting bearing.

8. The pressing and positioning device for an ultrathin film flexible workpiece according to claim 2, wherein a lifting handle is provided on the glass frame.

9. The pressing and positioning device for an ultrathin film flexible workpiece according to claim 2, wherein the flatness of the carrier glass and the ballast glass is 0.04mm or less, and the parallelism of the top surface of the carrier glass and the top surface of the ballast glass is-0.04-0.04 mm.