Quartz clip device and manufacturing method thereof and OLED high-temperature oven having same

Abstract

The present invention provides a quartz clip device and a manufacturing method thereof and an OLED high-temperature oven having the quartz clip device. The quartz clip device includes: a base (20), a plurality of quartz posts (30) mounted on the base (20), a quartz bottom board (40) arranged above the base (20), and a plurality of quartz plates (50) arranged above the quartz bottom board (40) and secured to the quartz posts (30). The quartz bottom board (40) includes a plurality of circular holes (42) formed therein to respectively correspond to the quartz posts (30). The circular holes (42) have a diameter that is slightly greater than a diameter of the quartz posts (30). The quartz posts (30) are received through he circular holes (42) and fastening members (60) are provided under the circular holes (42) to have the quartz bottom board (40) supported on the quartz posts (30). Slightly enlarging the diameter of the circular holes of the quartz bottom board ensures slight tipping of the quartz posts does not result in contact with the quartz bottom board so as to prevent cracking of the quartz bottom board from being caused by the contacts and affecting the production.

Claims

1. A quartz clip device, comprising: a base, a plurality of quartz posts mounted on the base and each extending in an axial direction, a quartz bottom board arranged above the base, and a plurality of quartz plates arranged above and spaced from the quartz bottom board and secured to the quartz posts, the quartz bottom board comprising a plurality of circular holes formed therein to respectively correspond to and receive the quartz posts, the circular holes having a diameter greater than a diameter of the quartz posts such that a space is formed between an inner circumference of each of the circular holes and an outer circumference of the corresponding one of the quartz posts, the quartz posts being received and completely extending through the circular holes, fastening members being provided under the circular holes to have the quartz bottom board supported on the quartz posts, wherein the space between the inner circumference of the circular hole of the bottom board and the outer circumference of the quartz post has a predetermined size to accommodate the diameter of the quartz post and allow for a sideway displacement of the quartz post within the circular hole in a sideway direction that is substantially perpendicular to the axial direction thereof caused by tipping of the quartz post with respect to the circular hole of the bottom board, wherein the predetermined size of the space between the inner circumference of the circular hole of the bottom board and the outer circumference of the quartz post is greater than the displacement of a portion of the quartz post that corresponds to an upper circumferential edge of the circular hole of the bottom board caused by the tipping of the quartz post so as to prevent the portion of the quartz post from contacting the upper circumferential edge of the circular hole.

2. The quartz clip device as claimed in claim 1, wherein the base comprises a plurality of retention sections respectively corresponding to the quartz posts, the quartz posts being mounted and fixed to the retention sections.

3. The quartz clip device as claimed in claim 2, wherein the quartz bottom board comprises a lower plate and an upper plate, the lower plate and the upper plate being integrally formed, the circular holes being through holes extending through the upper and lower plates, the lower plate being positioned on the fastening member.

4. The quartz clip device as claimed in claim 3, wherein the diameter of the circular holes is determined according to a formula: D=d+2h*arctan(α), where d is the diameter of the quartz posts, h is height of the upper plate of the quartz bottom board with respect to the base, and α is a maximum tipping angle of the quartz posts after being mounted to the retention sections.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The technical solution, as well as beneficial advantages, of the present invention will be apparent from the following detailed description of an embodiment of the present invention, with reference to the attached drawings. In the drawings:

(2) FIG. 1 is a schematic view showing the structure of a conventional quartz clip device;

(3) FIG. 2 is a cross-sectional view of a quartz bottom board of FIG. 1;

(4) FIG. 3 is a top plan view of the quartz bottom board of FIG. 1;

(5) FIG. 4 is a schematic view showing the structure of a quartz clip device according to the present invention;

(6) FIG. 5 is a cross-sectional view of a quartz bottom board of the quartz clip device according to the present invention;

(7) FIG. 6 is a top plan view of an upper plate of the quartz bottom board of the quartz clip device according to the present invention;

(8) FIG. 7 is a schematic view illustrating the spatial relationship among a base, a quartz post, and the quartz bottom board of the quartz clip device according to the present invention;

(9) FIG. 8 is a view illustrating the principle of setting the diameter of a circular hole formed in the quartz bottom board of the quartz clip device according to the present invention;

(10) FIG. 9 is a flow chart illustrating a method for manufacturing a quartz clip device according to the present invention

(11) FIG. 10 is a schematic view showing the structure of an OLED high-temperature oven having the quartz clip device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(12) To further expound the technical solution adopted in the present invention and the advantages thereof, a detailed description is given to a preferred embodiment of the present invention and the attached drawings.

(13) Referring to FIGS. 4-7, the present invention provides a quartz clip device, which comprises: a base 20, a plurality of quartz posts 30 mounted on the base 20, a quartz bottom board 40 arranged above the base 20, and a plurality of quartz plates 50 arranged above the quartz bottom board 40 and secured to the quartz posts 30.

(14) The base 20 comprises a plurality of retention sections 22 respectively corresponding to the quartz posts 30. The quartz posts 30 are mounted and fixed to the retention sections 22.

(15) The base 20 is made of a metal and in the instant embodiment, the base 20 is made of an iron based material. The retention sections 22 can be integrally formed with the base 20, or can alternatively mounted to the base 20 by means of welding. In the instant embodiment, the retention sections 22 and the base 20 are integrally formed together.

(16) The quartz bottom board 40 comprises a lower plate 44 and an upper plate 46 and the lower plate 44 and the upper plate 46 are integrally formed. The quartz bottom board 40 comprises a plurality of circular holes 42 formed therein to respectively correspond to the quartz posts 30. The circular holes 42 can be through holes extending through the upper and lower plates 46, 44. The lower plate 44 and the upper plate 46 are connected to each other by means of cylinders that respectively define the through holes so as to constitute the quartz bottom board 40.

(17) The quartz bottom board 40 functions to assist in fixing the quartz posts 30, so as to prevent the quartz posts 30 from excessively tipping and also to block heat from flowing between processes proceeding above and below the quartz bottom board 40, thereby ensuring temperature uniformity for substrates placed on the quartz plates 50.

(18) The circular holes 42 have a diameter that is slightly greater than a diameter of the quartz posts 30. The quartz posts 30 are received through the circular holes 42 and fastening members 60 are provided under the circular holes 42 so that the lower plate 44 are positioned on the fastening members 60 to have the quartz bottom board 40 supported on the quartz posts 30.

(19) The quartz plates 50 are provided with engagement sections corresponding to the quartz posts 30. The quartz plates 50 are mounted to the quartz posts 30 by means of the engagement sections. The quartz plates 50 function to receive substrates on which frit is coated for baking to be placed thereon. The quartz plates 50 are individually attached to different heights along the quartz posts 30 so as to achieve simultaneous high-temperature heating of multiple substrates in an OLED high-temperature oven.

(20) Referring to FIG. 8, with additional reference to FIG. 7, the diameter of the circular holes 42 is set according to the formula D=d+2x=d+2h*arctan(α), where D is the diameter of the circular holes 42 and d is the diameter of the quartz posts 30. Thus, the diameter of the circular holes 42 and that of the quartz posts 30 differ from each other by a value Δd, which is set according to the formula Δd=2x=2h*arctan(α), where h is the distance between the upper plate 46 of the quartz bottom board 40 and the base 20, α is the maximum tipping angle of the quartz posts 30 after being mounted to the retention sections 22. Calculation can be made according to trigonometric formula to obtain a maximum possible shift distance x for the displacement of the quartz posts 30, so that the diameter D of the circular holes 42 can be obtained by adding 2x to the diameter d of the quartz posts 30. This ensures slight tipping of the quartz posts 30 does not result in contact with the quartz bottom board 40 thereby preventing cracks resulting from contact, while prevents the diameter of the circular holes 42 of the quartz bottom board 40 from becoming unduly large to cause inhomogeneity of temperature for the process above the quartz bottom board 40.

(21) Referring to FIG. 9, with additional reference to FIGS. 4-8, the present invention provides a manufacturing method of a quartz clip device, which comprises:

(22) Step 1: providing a base 20.

(23) The base 20 comprises a plurality of retention sections 22. The base 20 is made of a metal and in the instant embodiment, the base 20 is made of an iron based material. The retention sections 22 can be integrally formed with the base 20, or can alternatively mounted to the base 20 by means of welding. In the instant embodiment, the retention sections 22 and the base 20 are integrally formed together.

(24) Step 2: providing a plurality of quartz posts 30 and mounting the plurality of quartz posts 30 to the base 20.

(25) The plurality of retention sections 22 is arranged to respectively correspond to the quartz posts 30 and the quartz posts 30 are mounted and fixed to the retention sections 22.

(26) Step 3: providing a quartz bottom board 40 and forming a plurality of circular holes 42 in the quartz bottom board 40 to respectively correspond to the quartz posts 30, the circular holes 42 having a diameter that is slightly greater than a diameter of the quartz posts 30.

(27) The quartz bottom board 40 comprises a lower plate 44 and an upper plate 46 and the lower plate 44 and the upper plate 46 are integrally formed. The circular holes 42 are through holes extending through the upper and lower plates 46, 44. The lower plate 44 and the upper plate 46 are connected to each other by means of cylinders that respectively define the through holes so as to constitute the quartz bottom board 40.

(28) The quartz bottom board 40 functions to assist in fixing the quartz posts 30, so as to prevent the quartz posts 30 from excessively tipping and also to block heat from flowing between processes proceeding above and below the quartz bottom board 40.

(29) Step 4: mounting a fastening member 60 to each of the quartz posts 30 at a predetermined height with respect to the base 20 and fitting the quartz bottom board 40 through the circular holes 42 to the quartz posts 30 to be positioned on the fastening members 60 thereby having the quartz bottom board 40 supported on the quartz posts 30.

(30) The fastening members 60 are arranged under the circular holes 42.

(31) Step 5: providing a plurality of quartz plates 50 and mounting the plurality of quartz plates 50 to the quartz posts 30 respectively at different heights so as to complete the manufacturing of a quartz clip device.

(32) The quartz plates 50 are provided with engagement sections corresponding to the quartz posts 30. The quartz plates 50 are mounted to the quartz posts 30 by means of the engagement sections. The quartz plates 50 function to receive substrates on which frit is coated for baking to be placed thereon so as to achieve simultaneous high-temperature heating of multiple substrate in an OLED high-temperature oven.

(33) The diameter of the circular holes 42 is set according to the formula D=d+2x=d+2h*arctan(α), where D is the diameter of the circular holes 42 and d is the diameter of the quartz posts 30. Thus, the diameter of the circular holes 42 and that of the quartz posts 30 differ from each other by a value Δd, which is set according to the formula Δd=2x=2h*arctan(α), where h is the distance between the upper plate 46 of the quartz bottom board 40 and the base 20, α is the maximum tipping angle of the quartz posts 30 after being mounted to the retention sections 22. Calculation can be made according to trigonometric formula to obtain a maximum possible shift distance x for the displacement of the quartz posts 30, so that the diameter D of the circular holes 42 can be obtained by adding 2x to the diameter d of the quartz posts 30. This ensures slight tipping of the quartz posts 30 does not result in contact with the quartz bottom board 40 thereby preventing cracks resulting from contact, while prevents the diameter of the circular holes 42 of the quartz bottom board 40 from becoming unduly large to cause inhomogeneity of temperature for the process above the quartz bottom board 40.

(34) Referring to FIG. 10, with additional reference to FIGS. 4-8, the present invention provides an OLED high-temperature oven, which comprises: an oven body 10 and a quartz clip device 12 mounted in the oven body 10. The quartz clip device 12 comprises a base 20, a plurality of quartz posts 30 mounted on the base 20, a quartz bottom board 40 arranged above the base 20, and a plurality of quartz plates 50 arranged above the quartz bottom board 40 and secured to the quartz posts 30.

(35) The base 20 comprises a plurality of retention sections 22 respectively corresponding to the quartz posts 30. The quartz posts 30 are mounted and fixed to the retention sections 22.

(36) The base 20 is made of a metal and in the instant embodiment, the base 20 is made of an iron based material. The retention sections 22 can be integrally formed with the base 20, or can alternatively mounted to the base 20 by means of welding. In the instant embodiment, the retention sections 22 and the base 20 are integrally formed together.

(37) The quartz bottom board 40 comprises a lower plate 44 and an upper plate 46 and the lower plate 44 and the upper plate 46 are integrally formed. The quartz bottom board 40 comprises a plurality of circular holes 42 formed therein to respectively correspond to the quartz posts 30. The circular holes 42 can be through holes extending through the upper and lower plates 46, 44. The lower plate 44 and the upper plate 46 are connected to each other by means of cylinders that respectively define the through holes so as to constitute the quartz bottom board 40.

(38) The quartz bottom board 40 functions to assist in fixing the quartz posts 30, so as to prevent the quartz posts 30 from excessively tipping and also to block heat from flowing between processes proceeding above and below the quartz bottom board 40, thereby ensuring temperature uniformity for substrates placed on the quartz plates 50.

(39) The circular holes 42 have a diameter that is slightly greater than a diameter of the quartz posts 30. The quartz posts 30 are received through the circular holes 42 and fastening members 60 are provided under the circular holes 42 so that the lower plate 44 are positioned on the fastening members 60 to have the quartz bottom board 40 supported on the quartz posts 30.

(40) The quartz plates 50 are provided with engagement sections corresponding to the quartz posts 30. The quartz plates 50 are mounted to the quartz posts 30 by means of the engagement sections. The quartz plates 50 function to receive substrates on which frit is coated for baking to be placed thereon. The quartz plates 50 are individually attached to different heights along the quartz posts 30 so as to achieve simultaneous high-temperature heating of multiple substrate in an OLED high-temperature oven.

(41) The diameter of the circular holes 42 is set according to the formula D=d+2x=d+2h*arctan(α), where D is the diameter of the circular holes 42 and d is the diameter of the quartz posts 30. Thus, the diameter of the circular holes 42 and that of the quartz posts 30 differ from each other by a value Δd, which is set according to the formula Δd=2x=2h*arctan(α), where h is the distance between the upper plate 46 of the quartz bottom board 40 and the base 20, α is the maximum tipping angle of the quartz posts 30 after being mounted to the retention sections 22. Calculation can be made according to trigonometric formula to obtain a maximum possible shift distance x for the displacement of the quartz posts 30, so that the diameter D of the circular holes 42 can be obtained by adding 2x to the diameter d of the quartz posts 30. This ensures slight tipping of the quartz posts 30 does not result in contact with the quartz bottom board 40 thereby preventing cracks resulting from contact, while prevents the diameter of the circular holes 42 of the quartz bottom board 40 from becoming unduly large to cause inhomogeneity of temperature for the process above the quartz bottom board 40.

(42) In summary, the present invention provides a quartz clip device and a manufacturing method thereof and an OLED high-temperature oven having the quartz clip device. The diameter of circular holes formed in a quartz bottom board is enlarged according to trigonometric formula in order to ensure slight tipping of the quartz posts does not result in contact with the quartz bottom board thereby protecting the quartz bottom board from cracks caused by the contacts, thereby preventing the quartz bottom board of a quartz clip device mounted in an OLED high-temperature oven from breaking and preventing production from being affected by damages of facility and also preventing the diameter of the circular holes of the quartz bottom board from becoming unduly large to cause inhomogeneity of temperature for the process above the quartz bottom board.

(43) Based on the description given above, those having ordinary skills of the art may easily contemplate various changes and modifications of the technical solution and technical ideas of the present invention and all these changes and modifications are considered within the protection scope of right for the present invention.