CN218502504U - Jig for dip-coating test end electrode slurry - Google Patents

Abstract

The utility model provides a tool for dip-coating test end electrode thick liquids, include: the dip-coating platform comprises a dip-coating area and a rewetting area, wherein the dip-coating area is provided with a slurry groove, and the rewetting area is provided with a rewetting platform; the device fixture comprises a fixture body, wherein one surface of the fixture body is provided with a device clamping groove, a plurality of devices to be dip-coated are sequentially and separately arranged in the device clamping groove, and the end heads of the devices to be dip-coated are positioned outside the device clamping groove; and the part of the device to be dip-coated, which is positioned in the device clamping groove, is positioned in the device clamping groove through the device clamp fixing clamp. The utility model discloses in be used for dip-coating test end electrode slurry's tool, can make things convenient for, swiftly simulate the piece formula device and scribble the end technology, test end electrode slurry scribbles the end effect, and the end electrode slurry research and development has the significance.

Description

Jig for dip-coating test end electrode slurry

Technical Field

The utility model relates to an end electrode thick liquids technical field specifically, relates to a tool that is used for dip-coating test end electrode thick liquids.

Background

With the rapid development of electronic information industries such as mobile phones, computers and the like, the domestic electronic component market is confronted with new opportunities and challenges for rapid development, the chip components are gradually developed in the directions of micro, small, light and thin, and the chip components are rapidly developed due to the characteristics of small size, light weight, easy assembly and high reliability, and the requirements of high-performance terminal electrode slurry with various characteristics can be reflected.

In recent years, with the demand of market demand for large amount and diversified terminal electrode paste, domestic electronic paste material suppliers are required to quickly and effectively optimize and change products, but the effective simulation of the chip device terminal coating process is difficult to quickly perform in a laboratory, so that the terminal electrode paste is difficult to develop, and the terminal silver machine of a terminal client is seriously relied on for test verification, thereby resulting in slow experimental process.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model aims at providing a tool for dip-coating test end electrode thick liquids can make things convenient for, swiftly simulate the piece formula device and scribble the end technology, and test end electrode thick liquids scribbles the end effect, and the end electrode thick liquids research and development has the significance.

The utility model provides a tool for dip-coating test end electrode thick liquids, include:

the dip-coating platform comprises a dip-coating area and a rewetting area, wherein the dip-coating area is provided with a slurry groove, and the rewetting area is provided with a rewetting platform;

the device fixture comprises a fixture body, wherein one surface of the fixture body is provided with a device clamping groove, a plurality of devices to be dip-coated are sequentially and separately arranged in the device clamping groove, and the end heads of the devices to be dip-coated are positioned outside the device clamping groove;

and the part of the device to be dip-coated, which is positioned in the device clamping groove, is positioned in the device clamping groove through the device clamping fixture fixing clamp.

In an embodiment of the present invention, the dip coating zone is provided with at least two slurry grooves having different depths.

In an embodiment of the utility model, the device fixture includes device card and fastener, the device card be used for with wait that dip-coating device presss from both sides tightly to be fixed in device screens inslot, the device card passes through the fastener fixing clip is located device screens inslot.

In an embodiment of the present invention, the fastening member is a fixing bolt; the clamp comprises a clamp body and is characterized in that a first screw hole is formed in the clamp body, a second screw hole is formed in a device clamping piece, and a fixing bolt is screwed into the first screw hole and the second screw hole in sequence.

The utility model discloses an in the embodiment, the device anchor clamps are still including locating stop device on the anchor clamps body, stop device is used for control wait to dip-coat device end with the thick liquids recess and/or it is stained with the distance between the platform to return.

The utility model discloses an in the embodiment, stop device is including being used for control treat dip-coating device end with the first stopper of distance between the thick liquids recess, be used for control treat dip-coating device end with the second stopper of distance between the platform is stained with to the time of returning.

In an embodiment of the present invention, the first stopper is a first limiting bolt, a first through hole matched with the first limiting bolt is formed on the fixture body, an axial direction of the first through hole is the same as a depth direction of the device clamping groove, and the first limiting bolt is screwed in and passes through the first through hole and then is located on the same side of the fixture body as the end of the device to be dip-coated;

the second limiting device is a second limiting bolt, a second through hole matched with the second limiting bolt is formed in the clamp body, the axial direction of the second through hole is the same as the depth direction of the device clamping groove, and the second limiting bolt is screwed in and penetrates through the second through hole to be located on the same side of the clamp body as the end of the device to be dip-coated.

In an embodiment of the present invention, there are two first stoppers, and the two first stoppers are symmetrically located at two sides of the device clamping groove respectively;

the number of the second limiting devices is two, and the two second limiting devices are symmetrically located on two sides of the device clamping groove respectively.

The utility model discloses an in the embodiment, be equipped with the anchor clamps handle on the anchor clamps body, the anchor clamps handle with device screens groove is located respectively on the relative two sides of anchor clamps body.

In an embodiment of the present invention, the cross section of the dip-coating platform is a convex shape.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the embodiment of the utility model provides a tool for dip-coating test end electrode thick liquids can be convenient, swiftly simulate chip type device and scribble the end technology, test end electrode thick liquids scribble the end effect, and it is significant to terminal electrode thick liquids research and development;

2. the embodiment of the utility model provides an among the tool that is used for dip-coating test end electrode thick liquids, device screens inslot back is arranged in to the device, and the device passes through device card and folds formula screens fixed for device anchor clamps can satisfy the demand of different size device dip-coating test end electrode thick liquids, are provided with the thick liquids recess of the different degree of depth on the dip-coating platform, according to the difference of device size, selection end electrode thick liquids dip-coating degree of depth that can be nimble.

3. The embodiment of the utility model provides an among the tool that is used for dip-coating test end electrode thick liquids, after using the same device to set up stop device, ensure dip-coating thick liquids technology uniformity, the end effect of scribbling of the different end electrode thick liquids of test that can be accurate under the same process conditions.

4. The embodiment of the utility model provides an among the tool that is used for dip-coating test end electrode thick liquids, stop device is including being used for control treat dip-coating device end with the first stopper of distance between the thick liquids recess, be used for control treat dip-coating device end with the second stopper of being stained with distance between the platform is stained with back, through first stopper and second stopper dip-coating and back be stained with the in-process and all carried out the screens, realized dual screens mode, guaranteed the accurate test of end effect of scribbling.

5. The embodiment of the utility model provides an among the tool that is used for dip-coating test end electrode thick liquids, dip-coating platform cross section is "protruding" style of calligraphy, and the ingenious difference that utilizes dip-coating platform width makes it corresponding with first stopper, second stopper respectively for first stopper, second stopper form respectively scribble the end and return the screens effect of being stained with.

6. The embodiment of the utility model provides an among the tool that is used for dip-coating test end electrode thick liquids, adjust first stopper at will according to the tiling thick liquids degree of depth, can solidify dip-coating test process standard.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of a top view structure of a dip-coating platform of the present invention;

fig. 2 is a schematic view of the structure of the dip-coating platform;

fig. 3 is a schematic front view of the device clamp of the present invention;

fig. 4 is a schematic top view of the device clamp of the present invention;

FIG. 5 is a schematic structural view of the device clamp of the present invention;

fig. 6 is a schematic top view of the device card of the present invention;

fig. 7 is the structure diagram of the utility model when the dip-coating sheet type device is fixed in the device clamp.

The correspondence between each mark and the part name is as follows:

dip-coating platform 100, slurry groove 101, dip-coating platform 102, device clamp 200, clamp body 201, device clamping groove 202, clamp handle 203, first screw hole 204, device clamp 300, device clamping sheet 301, fixing bolt 302, second screw hole 303, first limiting bolt 400, second limiting bolt 500 and sheet device 600.

Detailed Description

The present invention will be described in detail with reference to specific embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.

Example 1

The embodiment provides a tool for dip-coating test end electrode thick liquids, includes:

dip-coating platform 100, wherein the dip-coating platform 100 comprises a dip-coating area and a rewetting area, the dip-coating area is provided with a slurry groove 101, and the rewetting area is provided with a rewetting platform 102;

the device clamp 200 comprises a clamp body 201, a device clamping groove 202 is formed in one surface of the clamp body 201, a plurality of devices to be dip-coated are sequentially and separately arranged in the device clamping groove 202, and the end heads of the devices to be dip-coated are positioned outside the device clamping groove 202;

the device clamp 300, the part of the device to be dip-coated in the device clamping groove 202 is fixed and clamped in the device clamping groove 202 by the device clamp 300.

The slurry grooves 101 of the dip coating zone are provided in plurality, and the depth of at least two slurry grooves 101 is different.

For example, slurry grooves 101 in the dip-coating zone are four, the depths of the four slurry grooves 101 are different, the depths of the four slurry grooves 101 are respectively 1mm, 2mm, 3mm and 5mm, and different-size devices select different-depth slurry grooves 101 to scrape and fill terminal electrode slurry, so that the thickness of the slurry is ensured.

Device fixture 300 includes device card 301 and fastener, and device card 301 is used for holding a plurality of waiting to dip-coat device clamping card in device clamping groove 202 and is located device clamping groove 202, and device card 301 is fixed in device clamping groove 202 through the fastener.

Wherein the fastener is a fixing bolt 302; the clamp body 201 is provided with a first screw hole 204, the device card 301 is provided with a second screw hole 303, and the fixing bolt 302 is screwed into the first screw hole 204 and the second screw hole 303 in sequence, so that the device to be dip-coated is clamped by the fixing clip and is positioned between the inner wall of the device clamping groove 202 and the device card 301.

The device clamp 200 further comprises a limiting device arranged on the clamp body 201, and the limiting device is used for controlling the distance between the end of the device to be dip-coated and the slurry groove 101 and/or the dip-back platform 102.

The limiting device comprises a first limiting device and a second limiting device, wherein the first limiting device is used for controlling the distance between the end of the device to be dip-coated and the slurry groove 101, and the second limiting device is used for controlling the distance between the end of the device to be dip-coated and the dip-back platform 102.

The first limiting device is a first limiting bolt 400, a first through hole matched with the first limiting bolt 400 is formed in the clamp body 201, the axial direction of the first through hole is the same as the depth direction of the device clamping groove 202, and the first limiting bolt 400 is screwed in and penetrates through the first through hole to be positioned on the same side of the clamp body 201 as the end of a device to be dip-coated;

the second stopper is a second limiting bolt 500, a second through hole matched with the second limiting bolt 500 is formed in the clamp body 201, the axial direction of the second through hole is the same as the depth direction of the device clamping groove 202, and the second limiting bolt 500 is screwed in and penetrates through the second through hole to be located on the same side of the clamp body 201 as the end of the device to be dip-coated.

In an embodiment of the present invention, the first and second position limiters are both two, the two first position limiters are respectively symmetrically located at two sides of the device clamping groove 202, the two second position limiters are respectively symmetrically located at two sides of the device clamping groove 202, and the two first position limiters are located between the two second position limiters. The first limiters arranged symmetrically enable the distance between the end of the device to be dip-coated and the slurry groove 101 to be controlled more accurately and conveniently, and the second limiters arranged symmetrically enable the distance between the end of the device to be dip-coated and the back-dipping platform 102 to be controlled more accurately and conveniently.

The cross section of the back-dipping platform 102 is in a convex shape or a T shape, the width of the back-dipping platform 102 is set to be different, the back-dipping platform is adapted to a limiting device, the width between two first limiting devices is smaller than the width between two second limiting devices, a dip coating area is positioned on the narrow part of the back-dipping platform 102, and a back-dipping area is positioned on the wide part of the back-dipping platform 102, so that the first limiting devices and the second limiting devices form a coating end and a clamping effect of the back-dipping platform respectively.

Because the end is scribbled to the same device, the degree of depth that the device immerged in thick liquids recess 101 need be considered to first spacing bolt 400, so spacing is great relatively, and the spacing rewetting of second spacing bolt 500, and the device has self height, and is spacing less relatively, and second spacing bolt 500 is unsettled in scribbling the end engineering, and rewetting in-process second spacing bolt 500 plays the card position effect, and first spacing bolt 400 is unsettled.

It should be noted that the choice of the first and second position limiters is not limited to the above choice, and the distance between the end of the device to be dip-coated and the slurry groove 101 and/or the dip-back platform 102 can be controlled, for example, by a mechanical telescopic rod, an electric telescopic rod, or the like.

The clamp body 201 is provided with a clamp handle 203, and the clamp handle 203 and the device clamping groove 202 are respectively positioned on two opposite surfaces of the clamp body 201. The clamp handle 203 may be provided with anti-slip structures, such as anti-slip lines, anti-slip points, etc.

After the plurality of devices to be dip-coated are clamped and fixed in the device clamping groove 202 through the device clamping sheet 301, the heights of the parts of the plurality of devices to be dip-coated outside the device clamping groove 202 are the same.

When the jig for dip-coating test terminal electrode slurry is used specifically in this embodiment, the method mainly includes the following steps:

(1) Placing the device to be dip-coated into the device clamping groove at intervals, covering the part of the chip device in the device clamping groove 202 with a device card 301, and then sequentially screwing the fixing screws into the first screw hole 204 and the second screw hole 303 to ensure that the device to be dip-coated is clamped and fixed between the inner wall of the device clamping groove 202 and the device card 301; (2) Adjusting a first limit bolt 400 according to the size of the device to ensure that the first limit bolt 400 is clamped at the edge of the slurry groove 101 when the device is dip-coated in the slurry groove 101, so as to ensure that the bottom cannot be touched while the maximum depth is ensured, otherwise, the central part of the end head of the device is easily exposed, and adjusting a second limit bolt 500 according to the size of the device to ensure that the end head of the device cannot be directly contacted with the touch-back dipping platform 102 when the device is dipped back; (3) Filling terminal electrode electric materials to be verified into the corresponding slurry grooves 101 selected according to the size of the chip device; (4) The ready operation, anchor clamps handle 203 is held to both hands, make device anchor clamps 200 translation downwards perpendicularly, carry out the dip-coating in thick liquids recess 101, work as first spacing bolt 400 screens to the recess edge, again move up perpendicularly, then move device anchor clamps 200 to back and be stained with platform 102 directly over and move down perpendicularly and carry out the end electrode thick liquids and back and be stained with, touch back and be stained with platform 1025 when second spacing bolt 500, move up perpendicularly and carry out device anchor clamps 200 180 rotations, send the device top into the oven together up and dry.

The following further specifically describes the method of using the jig for dip-coating test terminal electrode paste in this embodiment, taking a sheet device with 0402 specification as an example:

placing a plurality of sheet-type devices 600 with specifications of 0402 into device clamping grooves in a way of separating gaps, covering the parts of the sheet-type devices in the device clamping grooves 202 by using device cards 301, and then screwing fixing screws into the first screw holes 204 and the second screw holes 303 in sequence to enable the plurality of sheet-type devices 600 to be dip-coated to be clamped and fixed between the inner walls of the device clamping grooves 202 and the device cards 301 (as shown in fig. 7);

adjusting a first limiting bolt 400 and a second limiting bolt 500 to enable the first limiting bolt 400 and the second limiting bolt 500 to be positioned in a first through hole and a second through hole, grasping the device clamp 200 through a clamp handle 203 to enable the device clamp 200 to be positioned above a slurry groove 101 (end electrode slurry to be verified is selected according to the size of the device to carry out blade coating and filling on the corresponding slurry groove 101), vertically dropping the device clamp 200, adjusting the first limiting bolt 400 to enable the part of the device to be dip-coated outside a device clamping groove 202 to be positioned in the slurry groove 101 to carry out dip-coating on the slurry, clamping the first limiting bolt 400 at the edge of the groove, then increasing a knob 1/10 on the first limiting bolt 400 (rotating the first limiting bolt 400 to enable a height difference to be formed between the first limiting bolt 400 and the second limiting bolt), and avoiding the end of the device to be dip-coated from contacting with the bottom in the slurry groove 101 while keeping the maximum depth (if the end of the device to be dip-coated contacts with the bottom in the slurry groove 101, the central part of the end of the device is exposed);

then, the device clamp 200 is gripped by the clamp handle 203, the device clamp 200 is positioned above the rewetting platform 102, when the end of the device is parallel to and close to the rewetting platform 102, the second limiting bolt 500 is adjusted, the second limiting bolt 500 touches the rewetting platform 102, it is ensured that the porcelain body at the end of the device cannot directly touch the rewetting platform 102 during rewetting, and then the knob 1/5 is added to the second limiting bolt 500 (by rotating the second limiting bolt 500, a height difference is formed between the second limiting bolt 500 and the first limiting bolt 400);

end electrode slurry to be verified is selected according to the size of a device, corresponding slurry grooves 101 are selected for blade coating and filling, after the specific slurry grooves 101 are selected, the end electrode slurry is blade coated and filled in the slurry grooves 101, a clamp handle 203 is used for grasping a device clamp 200, the device clamp 200 is located above the selected slurry grooves 101, then the clamp handle 203 is used for grasping the device clamp 200 and vertically moving downwards, dip coating is conducted in the selected slurry grooves 101, when a first limiting bolt 400 is clamped at the edge of the groove, the device clamp 200 is grasped and vertically moved upwards, the device clamp 200 is moved to the position right above a dip-back platform 102 and vertically moved downwards to conduct end electrode slurry dip-back, when a second limiting bolt 500 touches the dip-back platform 102, the device clamp is vertically moved upwards and rotated by 180 degrees, and the top end of the device is sent to an oven together upwards to be dried. And (3) waiting for the slurry to be dried, taking down the slurry, repeatedly fixing the same device, cleaning the end electrode slurry of the slurry groove 101, carrying out blade coating and filling on the slurry groove 101 by using other end electrode slurry, carrying out dip coating, and judging the coating end effect of different slurries by the same process.

The following further specifically describes the method of using the jig for dip-coating test terminal electrode paste in this embodiment, taking a 2512 standard chip device as an example:

placing a plurality of sheet-type devices with the specification of 2512 in the device clamping grooves at intervals, covering the parts of the sheet-type devices in the device clamping grooves 202 with device cards 301, and then screwing fixing screws into the first screw holes 204 and the second screw holes 303 in sequence to enable the devices to be dip-coated to be clamped and fixed between the inner walls of the device clamping grooves 202 and the device cards 301;

adjusting a first limiting bolt 400 and a second limiting bolt 500 to enable the first limiting bolt 400 and the second limiting bolt 500 to be located in the first through hole and the second through hole, grabbing the device clamp 200 through a clamp handle 203 to enable the device clamp 200 to be located above a slurry groove 101 (end electrode slurry to be verified is selected according to the size of the device to carry out blade coating and filling on the corresponding slurry groove 101), vertically dropping the device clamp 200, adjusting the first limiting bolt 400 to enable the part of the device to be dip-coated outside the device clamping groove 202 to be located in the slurry groove 101 to be dip-coated with slurry, clamping the first limiting bolt 400 at the edge of the groove, then increasing a knob 1/5 on the first limiting bolt 400, and avoiding the end of the device to be dip-coated from contacting with the inner bottom of the slurry groove 101 while keeping the maximum depth (if the end of the device to be dip-coated is in contact with the inner bottom of the slurry groove 101, a ceramic body at the center part of the end of the device is exposed);

then, the device clamp 200 is gripped by the clamp handle 203, the device clamp 200 is positioned above the dip-back platform 102, when the end of the device is parallel to and close to the dip-back platform 102, the second limiting bolt 500 is adjusted, the second limiting bolt 500 is made to touch the dip-back platform 102, the fact that the porcelain body at the end of the device cannot directly touch the dip-back platform 102 during dip-back is ensured, and then the knob 1/2 is added to the second limiting bolt 500;

end electrode slurry to be verified is selected according to the size of a device, corresponding slurry grooves 101 are selected for blade coating and filling, after the specific slurry grooves 101 are selected, the end electrode slurry is blade coated and filled in the slurry grooves 101, a clamp handle 203 is used for grasping a device clamp 200, the device clamp 200 is located above the selected slurry grooves 101, then the clamp handle 203 is used for grasping the device clamp 200 and vertically moving downwards, dip coating is conducted in the selected slurry grooves 101, when a first limiting bolt 400 is clamped at the edge of the groove, the device clamp 200 is grasped and vertically moved upwards, the device clamp 200 is moved to the position right above a dip-back platform 102 and vertically moved downwards to conduct end electrode slurry dip-back, when a second limiting bolt 500 touches the dip-back platform 102, the device clamp is vertically moved upwards and rotated by 180 degrees, and the top end of the device is sent to an oven together upwards to be dried. And (3) waiting for the slurry to be dried, taking down the slurry, repeatedly fixing the same device, cleaning the end electrode slurry of the slurry groove 101, carrying out blade coating and filling on the slurry groove 101 by using other end electrode slurry, carrying out dip coating, and judging the coating end effect of different slurries by the same process.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. A tool for dip-coating test end electrode thick liquids, its characterized in that includes:

the dip-coating platform comprises a dip-coating area and a rewetting area, wherein the dip-coating area is provided with a slurry groove, and the rewetting area is provided with a rewetting platform;

the device fixture comprises a fixture body, wherein one surface of the fixture body is provided with a device clamping groove, a plurality of devices to be dip-coated are sequentially and separately arranged in the device clamping groove, and the end heads of the devices to be dip-coated are positioned outside the device clamping groove;

and the part of the device to be dip-coated, which is positioned in the device clamping groove, is positioned in the device clamping groove through the device clamping fixture fixing clamp.

2. The tool for dip-coating test end electrode slurry according to claim 1, wherein the dip-coating zone is provided with at least two slurry grooves having different depths.

3. The jig for dip-coating test end electrode slurry according to claim 1, wherein the device clamp comprises a device clamping sheet and a fastener, the device clamping sheet is used for clamping and clamping the device to be dip-coated in the device clamping groove, and the device clamping sheet is connected with the clamp body through the fastener.

4. The jig for dip-coating test end electrode paste according to claim 3, wherein the fastener is a fixing bolt; the clamp comprises a clamp body and is characterized in that a first screw hole is formed in the clamp body, a second screw hole is formed in a device clamping piece, and a fixing bolt is screwed into the first screw hole and the second screw hole in sequence.

5. The jig for dip-coating test end electrode slurry according to claim 1, wherein the device fixture further comprises a limiting device arranged on the fixture body, and the limiting device is used for controlling the distance between the end of the device to be dip-coated and the slurry groove and/or the dip-back platform.

6. The jig for dip-coating test end electrode slurry according to claim 5, wherein the limiting device comprises a first limiter for controlling the distance between the end of the device to be dip-coated and the slurry groove, and a second limiter for controlling the distance between the end of the device to be dip-coated and the dip-back platform.

7. The jig for dip-coating test end electrode slurry according to claim 6, wherein the first stopper is a first limiting bolt, the jig body is provided with a first through hole matched with the first limiting bolt, the axial direction of the first through hole is the same as the depth direction of the device clamping groove, and the first limiting bolt is screwed in and passes through the first through hole and then is positioned on the same side of the jig body as the end of the device to be dip-coated;

the second limiting device is a second limiting bolt, a second through hole matched with the second limiting bolt is formed in the clamp body, the axial direction of the second through hole is the same as the depth direction of the device clamping groove, and the second limiting bolt is screwed in and penetrates through the second through hole to be located on the same side of the clamp body as the end of the device to be dip-coated.

8. The jig for dip-coating test end electrode slurry according to claim 7, wherein two first stoppers are provided, and the two first stoppers are symmetrically positioned on two sides of the device clamping groove respectively;

the number of the second limiting devices is two, and the two second limiting devices are symmetrically located on two sides of the device clamping groove respectively.

9. The jig for dip-coating test end electrode slurry according to claim 1, wherein the jig body is provided with a jig handle, and the jig handle and the device clamping groove are respectively located on two opposite surfaces of the jig body.

10. The tool for dip-coating test end electrode paste according to claim 1, wherein the cross section of the dip-coating platform is in a shape of a Chinese character 'tu'.

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