CN210254600U - Double-valve tin dispensing system with double platforms for adjustment - Google Patents
Double-valve tin dispensing system with double platforms for adjustment Download PDFInfo
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- CN210254600U CN210254600U CN201920071352.4U CN201920071352U CN210254600U CN 210254600 U CN210254600 U CN 210254600U CN 201920071352 U CN201920071352 U CN 201920071352U CN 210254600 U CN210254600 U CN 210254600U
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Abstract
The utility model discloses a bivalve point tin system that double-platform was adjusted, include: the X-axis direction moving platform is provided with a moving plate on the upper end face; the X-axis direction moving platform is fixedly arranged on the upper end face of the Y-axis direction moving platform; the sliding rail is arranged on the bottom plate along the Y-axis direction, and the upper end surface of the Y-axis direction moving platform is connected with the sliding rail in a sliding manner through a sliding block; the fixed valve is connected to a vertical plate through a first connecting plate, and the vertical plate is vertically connected to the bottom plate; the moving valve is connected to the moving plate through a second connecting plate. The utility model discloses an adopt the installation space that the cross roller guide rail has reduced the slider, satisfied and used the installation in narrow and small space.
Description
Technical Field
The utility model relates to a technical field that the bivalve was adjusted especially relates to a bivalve point tin system's that biplatform was adjusted technical field.
Background
In the electronic manufacturing industry, solder paste is often used to fix components on a PCB, and the consistency and accuracy of solder points need to be maintained throughout the process of adding the solder paste. The civil, commercial and military industries have increasingly expanded requirements on mobile equipment, and the requirements on integration and precision of elements on the PCB are provided. The traditional screen printing process often has the problems of deviation, poor demoulding, tin overflow, tin leakage and the like after printing, and in some production environments with high mixing degree and low yield, the working procedures of screen opening and the like also increase the manufacturing cost and necessary labor time, and the screen printing process is not suitable for flexible boards and processes with harsh requirements on the height, weight and size of tin paste.
However, compared with the mature printing equipment, the dispensing process starts late, and the equipment with the tin dispensing function is fewer and less.
Tin dispensing equipment on the market at present uses a single valve for operation, the single valve is convenient to use but low in efficiency, delivery time provided by customers cannot be met frequently, and tin dispensing machines matched with double valves are inoculated. The existing double-valve equipment often adopts a single platform to adjust the distance between two valves of a fixed valve and a movable valve, and adopts simple ways of screw thread connection fixation and linear guide rail guidance to install the movable valve.
However, the adjusting screw has a certain defect due to the fact that an artificial installation error exists in the loosening-screwing process of the adjusting screw and the scale (or digital display) standard of visual reference is lacked: on one hand, the relative coordinates between the two valves cannot be accurately controlled by single-platform adjustment, so that the position of a tin point is deviated; on the other hand, the installation mode can not be conveniently and quickly corrected, the installation occupied space is large, the structure is complex, and the problem of efficiency and quality cannot be really and effectively solved.
SUMMERY OF THE UTILITY MODEL
In view of the above problems, an object of the present invention is to provide a dual-valve tin spot system with dual-platform adjustment, which can accurately control the distance between two valves and avoid the position deviation of tin spots; meanwhile, the installation mode can be used for conveniently and quickly correcting.
In order to realize the purpose, the utility model discloses the technical scheme who takes does:
a double-valve tin dispensing system with double-platform regulation comprises
The X-axis direction moving platform is provided with a moving plate on the upper end face;
the X-axis direction moving platform is fixedly arranged on the upper end face of the Y-axis direction moving platform;
the sliding rail is arranged on the bottom plate along the Y-axis direction, and the upper end face of the Y-axis direction moving platform is connected with the sliding rail in a sliding mode through a sliding block;
the fixed valve is connected to a vertical plate through a first connecting plate, and the vertical plate is vertically connected to the bottom plate;
and the moving valve is connected to the moving plate through a second connecting plate.
The double-valve tin-dispensing system with double-platform adjustment, wherein the moving platform in the X-axis direction comprises an upper moving part and a lower moving part; the lower surface of the upper moving portion is slidably coupled to the upper surface of the lower moving portion by a first cross roller guide, and the first cross roller guide is provided to the upper surface of the lower moving portion in the X-axis direction.
In the double-valve tin dispensing system with double-platform adjustment, one side of the lower moving part is provided with the first micrometer fixing device, and the same side of the upper moving part is provided with the first L-shaped pushing block; the first micrometer fixing device is provided with a micrometer adjusting device along an X axis, and the pushing end of the micrometer adjusting device is fixedly connected with the first L-shaped pushing block.
The dual-valve tin dispensing system with dual-platform adjustment, wherein the first L-shaped pushing block comprises a first vertical block perpendicular to the side of the upper moving part and a first parallel block parallel to the side of the upper moving part; the first vertical block and the first parallel block are mutually perpendicular to form the first L-shaped pushing block; the first parallel block is fixed on the side face connected with the upper moving part, and the first vertical block is fixedly connected with the pushing end of the micrometer adjusting device.
The double-valve tin dotting system with double-platform adjustment is characterized in that the moving platform in the Y-axis direction comprises an upper moving part and a lower moving part; the lower surface of the upper moving portion is slidably coupled to the upper surface of the lower moving portion by a second cross roller guide, and the second cross roller guide is provided to the upper surface of the lower moving portion in the Y-axis direction.
In the double-valve tin dispensing system with double-platform adjustment, one side of the lower moving part is provided with the second micrometer fixing device, and the same side of the upper moving part is provided with the second L-shaped pushing block; the second micrometer fixing device is provided with a micrometer adjusting device along the Y axis, and the pushing end of the micrometer adjusting device is fixedly connected with the second L-shaped pushing block.
The dual-valve tin dropping system with dual-platform adjustment, wherein the second L-shaped pushing block comprises a second vertical block perpendicular to the side surface of the upper moving part and a second parallel block parallel to the side surface of the upper moving part; the second vertical block and the second parallel block are mutually perpendicular to form the second L-shaped pushing block; the second parallel block is fixed on the side face connected with the upper moving part, and the second vertical block is fixedly connected with the pushing end of the micrometer adjusting device.
The double-valve tin dispensing system with double-platform adjustment comprises a locking device, a control device and a control device, wherein the locking device comprises a gasket and a screw; the upper end of the gasket is provided with a strip-shaped hole, and the lower end of the gasket is fixed on the side surface of the lower moving part, which is back to the micrometer adjusting device; the side surface of the upper moving part, which is back to the micrometer adjusting device, is provided with a plurality of threaded holes, and the threaded holes are positioned in the strip-shaped holes; the screw penetrates through the elongated hole to the threaded hole.
The double-valve tin dotting system with double-platform adjustment is characterized in that the first connecting plate and the second connecting plate are arranged along the Y-axis direction.
The utility model discloses owing to adopted above-mentioned technique, make it compare the positive effect that has with prior art and be:
the utility model discloses an adopt cross roller guide rail, improve and adjust the precision to removing the valve, the installation is adjusted conveniently, has practiced thrift personnel and necessary man-hour greatly.
The utility model discloses an adopt the installation space that the cross roller guide rail has reduced the slider, satisfied and used the installation in narrow and small space.
The utility model has the advantages that the L-shaped pushing block and the micrometer adjusting device are arranged, so that the position adjustment of the moving valve has visual reading, and the position adjustment of two dimensions of an X axis and a Y axis is satisfied; so that the adjustment is accurate and can be precisely adjusted by taking 0.01mm as a unit.
Drawings
Fig. 1 is a perspective view of a dual-valve tin dispensing system with dual-platform regulation according to the present invention;
fig. 2 is a perspective view of the X-axis direction moving platform and the Y-axis direction moving platform of the double-valve tin dispensing system adjusted by the double-platform of the present invention.
Fig. 3 is a schematic diagram of the X-axis moving platform and the locking device of the dual-valve tin dispensing system with dual-platform adjustment according to the present invention.
In the drawings: 1. moving the platform in the X-axis direction; 11. an upper moving part; 12. a lower moving part; 122. a micrometer adjusting device; 1221. a threaded hole; 13. a first cross roller guide; 2. a Y-axis direction moving platform; 21. an upper moving part; 211. an L-shaped pushing block; 2111. a vertical block; 2112. a parallel block; 22. a lower moving part; 221. a micrometer fixing device; 222. a micrometer adjusting device; 2221. a pushing end; 23. a second cross roller guide; 4. a fixed valve; 41. a first connecting plate; 42. a vertical plate; 5. a base plate; 51. a second connecting plate; 6. moving the plate; 7. a locking device; 71. a gasket; 711. a strip-shaped hole; 72. and (4) screws.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.
Fig. 1 is a perspective view of a dual-valve tin dispensing system with dual-platform regulation according to the present invention; fig. 2 is a perspective view of the X-axis direction moving platform and the Y-axis direction moving platform of the double-valve tin dispensing system adjusted by the double-platform of the present invention. Fig. 3 is a schematic diagram of the X-axis moving platform and the locking device of the dual-valve tin dispensing system with dual-platform adjustment according to the present invention.
Referring to fig. 1-3, a preferred embodiment of a dual stage regulated dual valve dispensing system is shown, comprising:
the X-axis direction moving platform 1 is provided with a moving plate 6 on the upper end surface of the X-axis direction moving platform 1.
The Y-axis direction moving platform 2 is fixedly provided with an X-axis direction moving platform 1 on the upper end face of the Y-axis direction moving platform 2.
And slide rails (not shown in the figure) which are arranged on the bottom plate 5 along the Y-axis direction and to which the lower end surface of the Y-axis direction moving platform 2 is connected in a sliding manner through sliders.
The fixed valve 4, the fixed valve 4 is connected to the vertical plate 42 through the first connection plate 41, and the vertical plate 42 is vertically connected to the bottom plate 5.
And a moving valve 5, wherein the moving valve 5 is connected to the moving plate 6 through a second connecting plate 51.
The above is merely an example of the preferred embodiments of the present invention, and the embodiments and the protection scope of the present invention are not limited thereby.
Further, in a preferred embodiment, the X-axis direction moving platform 1 includes an upper moving portion 11 and a lower moving portion 12; the lower surface of the upper moving portion 11 is slidably connected to the upper surface of the lower moving portion 12 through a first cross roller guide 13, and the first cross roller guide 13 is provided on the upper surface of the lower moving portion 12 in the X-axis direction.
Further, in a preferred embodiment, a first micrometer fixing device (not shown) is disposed on one side of the lower moving portion 12, and a first L-shaped pushing block (not shown) is disposed on the same side of the upper moving portion 11; the first micrometer fixing device is provided with a micrometer adjusting device 122 along the X axis, and a pushing end (not shown in the figure) of the micrometer adjusting device 122 is fixedly connected to the first L-shaped pushing block.
Further, in a preferred embodiment, the first L-shaped pushing block (not shown) includes a first vertical block (not shown) perpendicular to the side of the upper moving part 11 and a first parallel block (not shown) parallel to the side of the upper moving part 11; the first vertical block and the first parallel block are mutually vertical to form a first L-shaped pushing block; the first parallel block is fixed to the side of the upper moving part 11, and the first vertical block is fixedly connected to the pushing end of the micrometer adjusting device 122.
Further, in a preferred embodiment, the Y-axis direction moving stage 2 includes an upper moving portion 21 and a lower moving portion 22; the lower surface of the upper moving portion 21 is slidably coupled to the upper surface of the lower moving portion 22 by a second cross roller guide 23, and the second cross roller guide 23 is provided on the upper surface of the lower moving portion 22 in the Y-axis direction.
Further, in a preferred embodiment, a second micrometer fixing device 221 is disposed on one side of the lower moving portion 22, and a second L-shaped pushing block 211 is disposed on the same side of the upper moving portion 21; the second micrometer fixing device 221 is provided with a micrometer adjusting device 222 along the Y axis, and a pushing end 2221 of the micrometer adjusting device 222 is fixedly connected to the second L-shaped pushing block 211.
Further, in a preferred embodiment, the second L-shaped pushing block 211 includes a second vertical block 2111 perpendicular to the side of the upper moving portion 21 and a second parallel block 2112 parallel to the side of the upper moving portion 21; the second vertical block 2111 and the second parallel block 2112 are perpendicular to each other to form a second L-shaped pushing block 211; the second parallel block 2112 is fixed to the side of the upper moving portion 21, and the second vertical block 2111 is fixedly connected to the pushing end 2221 of the micrometer adjustment means 222.
Further, in a preferred embodiment, the locking device 7 comprises a washer 71 and a screw 72; the upper end of the gasket 71 is provided with a strip-shaped hole 711, and the lower end of the gasket 71 is fixed on the side surface of the lower moving part 12, which faces away from the micrometer adjusting device 122; the side surface of the upper moving part 11, which faces away from the micrometer adjusting device 122, is provided with a plurality of threaded holes 1221, and the threaded holes 1221 are located in the elongated holes 711; the screw 72 extends through the elongated hole 711 into a threaded hole 1221.
Further, in a preferred embodiment, the first connecting plate 41 and the second connecting plate 51 are both disposed along the Y-axis direction.
The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.
Claims (9)
1. A double-valve tin dispensing system with double-platform adjustment is characterized by comprising
The X-axis direction moving platform is provided with a moving plate on the upper end face;
the X-axis direction moving platform is fixedly arranged on the upper end face of the Y-axis direction moving platform;
the sliding rail is arranged on the bottom plate along the Y-axis direction, and the lower end face of the Y-axis direction moving platform is connected with the sliding rail in a sliding mode through a sliding block;
the fixed valve is connected to a vertical plate through a first connecting plate, and the vertical plate is vertically connected to the bottom plate;
and the moving valve is connected to the moving plate through a second connecting plate.
2. The dual valve spot tin system of claim 1 wherein said X-axis direction moving stage comprises an upper moving part and a lower moving part; the lower surface of the upper moving portion is slidably coupled to the upper surface of the lower moving portion by a first cross roller guide, and the first cross roller guide is provided to the upper surface of the lower moving portion in the X-axis direction.
3. The dual-valve tin dotting system with dual-platform adjustment according to claim 2, wherein a first micrometer fixing device is arranged on one side of the lower moving part, and a first L-shaped pushing block is arranged on the same side of the upper moving part; the first micrometer fixing device is provided with a micrometer adjusting device along an X axis, and the pushing end of the micrometer adjusting device is fixedly connected with the first L-shaped pushing block.
4. The dual valve spot tin system of claim 3, wherein the first L-shaped pushing block comprises a first vertical block perpendicular to the side of the upper moving part and a first parallel block parallel to the side of the upper moving part; the first vertical block and the first parallel block are mutually perpendicular to form the first L-shaped pushing block; the first parallel block is fixed on the side face connected with the upper moving part, and the first vertical block is fixedly connected with the pushing end of the micrometer adjusting device.
5. The dual valve spot tin system of claim 1 wherein said Y-axis direction moving stage comprises an upper moving portion and a lower moving portion; the lower surface of the upper moving portion is slidably coupled to the upper surface of the lower moving portion by a second cross roller guide, and the second cross roller guide is provided to the upper surface of the lower moving portion in the Y-axis direction.
6. The dual-valve tin dotting system with dual-platform adjustment according to claim 5, wherein a second micrometer fixing device is arranged on one side of the lower moving part, and a second L-shaped pushing block is arranged on the same side of the upper moving part; the second micrometer fixing device is provided with a micrometer adjusting device along the Y axis, and the pushing end of the micrometer adjusting device is fixedly connected with the second L-shaped pushing block.
7. The dual valve spot tin system of claim 6, wherein the second L-shaped pushing block comprises a second vertical block perpendicular to the side of the upper moving part and a second parallel block parallel to the side of the upper moving part; the second vertical block and the second parallel block are mutually perpendicular to form the second L-shaped pushing block; the second parallel block is fixed on the side face connected with the upper moving part, and the second vertical block is fixedly connected with the pushing end of the micrometer adjusting device.
8. The dual platform regulated dual valve tin system of claim 3 or 6, comprising: a locking device comprising a washer and a screw; the upper end of the gasket is provided with a strip-shaped hole, and the lower end of the gasket is fixed on the side surface of the lower moving part, which is back to the micrometer adjusting device; the side surface of the upper moving part, which is back to the micrometer adjusting device, is provided with a plurality of threaded holes, and the threaded holes are positioned in the strip-shaped holes; the screw penetrates through the elongated hole to reach the threaded hole.
9. The dual stage modulated dual valve spot tin system of claim 6, wherein the first connection plate and the second connection plate are both disposed along a Y-axis direction.
Priority Applications (1)
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CN201920071352.4U CN210254600U (en) | 2019-01-16 | 2019-01-16 | Double-valve tin dispensing system with double platforms for adjustment |
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CN201920071352.4U CN210254600U (en) | 2019-01-16 | 2019-01-16 | Double-valve tin dispensing system with double platforms for adjustment |
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CN210254600U true CN210254600U (en) | 2020-04-07 |
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CN201920071352.4U Active CN210254600U (en) | 2019-01-16 | 2019-01-16 | Double-valve tin dispensing system with double platforms for adjustment |
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Address after: 518100 Second, Third and Fourth Floors of G1 Building of Baishixia Factory Building, Fuyong Street, Baoan District, Shenzhen City, Guangdong Province Patentee after: Ridong intelligent equipment technology (Shenzhen) Co.,Ltd. Address before: 518100 Second, Third and Fourth Floors of G1 Building of Baishixia Factory Building, Fuyong Street, Baoan District, Shenzhen City, Guangdong Province Patentee before: UNISPLENDOUR SUNEAST TECHNOLOGY (SHENZHEN) Co.,Ltd. |
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