TW210377B - - Google Patents

Description

A 6 钭 称 7-11®- V. Description of the invention (L) [Background of the invention] The present invention relates to a device calibration / connecting device and method, such as the light receiving element and the light emitting element in the optical communication system Wait for the device to be connected together. [Description of Prior Art] FIGS. 33 and 34 show a conventional device calibration / coupling device. As shown in FIGS. 33 and 34, a light-receiving or transmitting element (hereinafter simply referred to as an optical element) 11 is located on the element holder 101. The element holder 101 is fixed to the body 103 via the legs 102. The body 103 is supported by the X stage 104 and the Y stage 105. The X machine 104 can move in the X axis direction, and the Y machine 105 can move in the Y axis direction perpendicular to the X axis. The lead pU 12 of the photoelectric element 11 is inserted into the socket 106 located below the body 103. The optical fiber 14 is connected to the coupling portion 13 which is located above the optical element 1 1 and is supported by the support arm 107. The support arm 107 is installed on the Z-machine 108, and the Z machine 108 can move along the Z-axis direction perpendicular to both the X-axis and the Y-axis.

In order to align the optical element 1 1 with the coupling part 1 3, first fix the optical element 1 1 and the Z machine 108 will move the coupling part 1 3 along the Z direction so that the coupling surface of the coupling part and the light The coupling surfaces of the elements 11 are in close contact. Next, the X machine 104 and the Y machine 105 will move the optical element D in the X-axis and Y-axis directions. FIG. 35 is another conventional calibration / coupling device. Paintings 36 and 37 are based on this paper. Use the Chinese B Family Standard (CNS) T4 regulations (210X29 / Gong; Jfc) (please read the precautions first and then fill out this one.-Order_Ministry of Economic Affairs Bureau of Standards, Bei Gong, Consumer Cooperation Du Printing 81. 7. 20.000ik (ll) 210377 Λ 6η 6 Employees of the Central Bureau of Standards of the Ministry of Economic Affairs and Cooperation Du Printing 5i V. Description of Invention (2) A cross-sectional view of an important part of the device. As shown in Figures 35 to 37, this calibration / coupling device will push down a coupling part (the coupling part is supported by a fork post), so that the coupling part is in close contact with the optical element row; that is, coupling Part of the connection surface is in contact with the connection surface of the optical element. The support 111 can move in the vertical direction, and the center of the support has a support hole 112. A float 113 is located in the support hole 112 and can be along Move in the vertical direction. The float valve 113 supports three fishing rods 114, and the distances of these three fishing rods 114 in the circumferential direction are equal. Each fishing rod 114 has a latch 116, and the latch 116 and the deflector wheel (cam) of the floating valve 113 ) The slots 115 are locked together. There are three support pins 117 in the float valve 113. Each support pin 117 is inserted In the support hole 119 of the bracket 118, the bracket is fixed on the support 111. The winding spring 120 is located between the support pin 117 and the support hole 119. The number 121 represents a detent, which can stop the float valve 113 Movement, the number 122 represents a tilting spring-loaded latch, which can remove the gap caused by the gap (gap) of the fish 114. The float valve 113 has a chuck handle 123, the gripper 111 has a lock Shank 1 2 4 to lock the chuck shank 1 2 3. In order to grasp the coupling part 1 2 5, the fishing rod U 4 will move outward, and then, the coupling part 1 2 5 is placed on the float valve 1 The central part of 1 3. Then, the chuck handle 1 2 3 will cause the float valve Π 3 to rotate in a counterclockwise direction (as shown in FIG. 3 5). Due to the action of the cam groove 1 1 5 Move inwards, -4-

--(Please read the precautions before you fill in this one X pack · order · line. The ft scale of this paper is used in the national B standard (CNS) T4 specification (210X297 male dragon) 81. 7. 20.000iic ( II) A 6η 6 Printed by the Central Bureau of Economics, Ministry of Economic Affairs, A Industrial Consumer Cooperative ** 5. Description of the invention (3) Make the connecting part 1 2 5 contact the front end of the angler. At this time, the thread handle 1 2 4 will Lock the collet shank 123. Then, the shank 111 moves down, and the coupling part 125 remains stationary. Therefore, the coupling surface of the coupling part will be in contact with the coupling surface of the optical element (not shown). In the traditional calibration / coupling device, the coupling surface of the coupling part will be in close contact with the coupling surface of the optical element; that is, the coupling part moves outward to the fixed optical element. The coupling surface of the optical element and the coupling part The parallelism between the coupling surfaces will depend on the support method of the optical element and the coupling element. When the parallelism is insufficient, the optical element 11 and the coupling portion 13 are inclined so that the two There is a gap S between the coupling surfaces, as shown in Fig. 38. Then, the optical element 11 and the coupling portion 13 Welding together, then resin mold. In the mold program, the gap S will be filled with resin. As a result, the coupling effect between the connected elements will be abnormal. If the optical element 11 is a light emitting diode (LED), and The pin pins are bent during the manufacturing process. When the light-emitting diode contacts the connecting part, a gap S will appear between the connecting surfaces, as described above. As can be seen from FIG. 39, the gap between the connecting elements It is quite large, with an average value of 30.7 m. In order to make the action between the elements more accurate, the gap between the coupling surfaces must be minimized. One of the possible ways to increase the parallelism is when the coupling part When connecting with the optical element, adjust the inclination of the connecting part. However, this method requires a very complicated structure, which leads to an increase in manufacturing costs. And adjusting the inclination will take a lot of time. As a result, it will make the system -5- _ (Please read the precautions first and then write the book h Pack-Line · This paper ft scale is used in 8 81 Jia Bi (CNS) T4 specifications (210X297 g) 81. 7. 20.000 sheets (il) η A 6 Π 6 V. Description of the invention (4 questions-ask yes but qu 〇_ The direct connection of the pin of the direct-pulling foot pin. ΛΗΜ extremely curved. Two times between the light and the time, the first solution is the first time. The solution is too much. The low collimation and the correction rate are lower than the pin rate. You will be able to find the correct version of the book, and you will be able to ask this kind of question, and install the paired needles in each description. 1 For the provision of connection and the connection of the quasi-professional division and the connection of the zero contact element to the light, the secret of the secret is issued according to the description of the quasi-protocol element, such as I kind of 1 (please read the back first Matters needing attention # fill in this page) Set the supporting frame of the supporting branch \ The shape of the element of the support is made of flat pieces, and the light is surrounded by the surrounding pieces. One tie connects to the next frame. And the parts of the parts are connected to the joint 2. The solid body of the first part has the upper part of the fixed assembly and the elasticity of the part. The fixed spring is elastic and the two plates are flat. The element bullet is now fixed, and the fixed point is fixed and fixed at the middle of the point. The spring plate of the two quasi-spring elements is rounded. The S card ABU stretcher is extended to the fixed center of the fixed diameter and the point circle. A spring with the same two springs and a spring with a spring and a board II are installed on the dotted line at the position. The Ministry of Economic Affairs Bureau of the Central Government only works to eliminate the extension of the diameter and the The heart is in the same position as the reed circle. The fixed wire is fixed, two straight, two grooves each with an upper spring 36ο round between the plates, fixed in the point fixed in the joint and connected to the quasi-groove grooved element. , The fixed groove at the side point of the edge along the groove is at the groove position, and the upward spring side nB in the groove side groove. I ¾ round plate WHF of the evening plate, 51 outside by the other groove. Bibi (CNS) T4 specification (210 father 297 male dragons) 81. 7. 20.000 sheets (II) Λ 6 Β6 2i〇 ^ 7 V. Description of the invention (5) Extension. In the second part of the present invention, there is provided an element alignment / coupling device, wherein the elastic component is a circular plate spring, and there are three first fixed points on the circular plate spring. The distances of the 3 fixed points are equal, and they are located on a circle concentric with the disc spring; S has 3 second fixed points on the disc spring, and the distances of these 3 fixed points are the same as seen in the direction of the circumference, And it is located on a figure concentric with the circular plate spring; each second fixed point is located between two adjacent first fixed points. Please first 1 ^-读 背 而 的 更新 的 问题 # 锅 写 本 一; |, Economy The EX Engineering Department of the Shiyang Central Bureau cooperated with Du Gong to print the parts, and the two-point springs were used for force. The Anyuanshi seed plate and the small part between the fixed plate were nearly this circle, one of the solid circle. When the knot phase is supported, the bow is supported. Point-to-link is sexually linked. A set of 2 is only subject to separation. The spring is used by this gap is another wire fixed spring to extend the distance. The square piece is due to the element being straight and the element can be seeded. Now set up to the spring 2 position plate, but,, these slanting fixed springs are all round, this piece will use this inclination to elastically fix the plate to the part of the local element, so that the face is not at the round position. . Light-curing means that the junction will move away from the midpoint. 1 bullet, enough to set between the joints; the fixed section of the fixed-period shape is fixed to the fixed section, and the line is rounded by a line, and the line is connected straight. One of the two sets also has a horizontal connection of the body frame \ 于 1 This is a quasi-spring that is connected to the mechanical support on the point spring. Each support spring and the piece are fitted with a spring proof body, and the side is extended from the plate spring frame element. In the component board position, the round dots on the surface of the round plate support in the barrel will be rounded to the sleeve. The bit unit is connected to the c-fixed sleeve, and the light-type spring of the oblique light is tilted out of the spring at the time. Order_ line · 81. 7. 20,000¾ (II) The ft scale of this paper is used in the HS standard (CNS) T4 specification (210X297mm) V. Description of the invention (6) The second of the disc springs is fixed to the present invention, the radial extension of the connecting part of the component holder via the above, when these elements are placed on the component tilt D will therefore have gaps. There is also a 3-point equalization. The third part will be pressed on the bracket with the structural member made of the coupling surface flat plate, so that the second part can be tilted. The lifting element can tilt the spring, even if it is close. To fix the point, the adjacent first light beam for clamping by another kind of frame, and the clip is self-elastically connected to the component, with radial components, the distance Λ 6η 6 along the connected component is also equal; Between each fixed point. Component calibration / coupling device The components are in close contact with each other and around the component holder. The parallelism between the flat springs is not enough to extend; the connecting surface of the connecting part of the connecting part will not be connected between the outer / close frame close-precision support element, element, element, and element. And another clip, for the rack to lift and tilt, the piece can be shared by the face with the yuan. 4 Connect the part of the part of the frame to the knot and send the link. The elastic element of the supporting element of Xing Yuan can be borrowed and linked by the spring diameter, and the spring can be stretched close to the shape. By extension, the extension of the spring-like rod 31 towards

(Please read the precautions before writing the text! X Pack · Order _ Line. The Ministry of Economic Affairs, Central Bureau of Precinct C3: The work of the Consumer Council to cooperate in the du printing of the face will be connected and the group will be extended. Yes, the connection of the element-type optical square is supported by this frame. This element is due to the gap. There is a slanting meeting in the vacant slope, and it will be used for the purpose of making a clear vision between the couples without using a tie. This type of diagram clearly states that this can be divided into β,, 1 ,, 0a and 戠. The 1 in the Ming style is based on the following formula for simple drawing. "C Real Paper" scale is used in the standard of the B family standard (CNS) A 4 specifications (210X29 / male; it) 81. 7. 20.000¾ (II) 5. Description of the invention (7 A 6η 6 installation and connection \ standard The example of the schoolware element, Shi Zhongshi's real figure 1; the original frame of the vertical haircut and the picture of the first figure, which are the pivots, 1 excellent picture element, the figure of the flat spring UAL 弾 shape ;; 0 picture figure circle The cross-section of the branch line of the branch line element 1 III of the EI 1 of the figure 1-_ one-~ The figure is connected to the connecting edge as a) / 1 · 2 3 4 Connection \; the spring example of the quasi-drawing surface element section element spring-like solid plate value circle No. 1) 4 Ming painting is based b) is y (v 4 5 (K) element in (1 Minghuan luminous light; for the sequence of Figure 6 7 flow chart; the front of the drawing and viewing-the placement of the connecting element receiving or emitting light \) / Component reception or emission to the use of / IV ring bond light as picture C) process 8 (flow to a) sequence 8 (program map manufacturing sequence connection \ quasi-calibration part connection and component Light is d; 9 (_ to the surface a) cut 9 ($ _ (please read the precautions on the back ΙΓΠ first before filling in this one 4 pack-order-line ·

Ministry of Economic Affairs Central Bureau of Selection B3: Industrial and Consumer Cooperation Du Yin M installation; inter-connection; time \ chart of the pre-university must be between the connection between the element of the school and the standard and the actual application of the school The number of the two pieces of each Ming Mingjie production and development hair salon will be originally 0 12 11 11 11 The view of the drawing picture The view of the drawing 1212 The vertical frame of the chopsticks is 44- 3 4 -i 11 The drawing of the drawing of the meta-map is cut away to see the line to see the I line of the original paper ft scale to use the Chinese National Standard (CNS) T4 specifications (210x297 g; Jt) 81. 7. 20.000¾ (11) Λ 6 Π 6 21 calendar ^ _ V. Description of the invention (8) Figure 15 (a) is a plan view of the circular plate spring connected to the element holder of FIG. 12; FIG. 15 (b) is the circular plate spring of drawing 15 (a) Fig. 16 is the relationship between the number of coupling elements and their gaps; FIG. 17 is a longitudinal view of the element holder of the element calibration / coupling device of the third embodiment of the invention; FIG. 18 is a diagram along FIG. 17 XVIII-XVIII line cross-sectional view; drawing 19 is a cross-sectional view taken along line XIX-XIX of Chenhui 17; FIG. 20 (a) is a plan view of a circular plate spring connected to the element holder of FIG. 17; 20 (b) is a cross-sectional view of the disk spring of FIG. 20 (a); FIG. 21 is a longitudinal view of a component holder of a component calibration / coupling device of a fourth embodiment of the invention; FIG. 22 is a fifth of the invention The longitudinal view of the component holder of the component calibration / coupling device of the embodiment; FIG. 23 is the longitudinal view of the component holder of the component calibration / coupling device of the sixth embodiment of the present invention; FIG. 24 is the XXIV- The cross-sectional view seen by XXIV; Figure 25 (a) is a plan view of the disc spring connected to the element holder of FIG. 23; Figure 25 (b) is a cross-sectional view of the disc spring of FIG. 25 (a); Figure 26 is Longitudinal view of the component holder of the component calibration / coupling device of the seventh embodiment of the present invention; -1 0-the size of this paper uses the Chinese trapped home «Bi (CNS) T4 specification (210x297; Jt) _ (please first 1 ^ Read the notes on the back and write a copy of the first one ^ Pretend-Printed by the Ministry of Economic Affairs, Ministry of Economic Affairs, “Public Counselor ’s Cooperative” ^ 81. 7. 20.000¾ (II) 210 ^ 7 Λ 6 η 6 Ministry of Economics Printed by the quasi-bureau employee consumer cooperative V. Description of the invention (9) Figure 27 is a longitudinal cross-sectional view of the component calibration / coupling device of Figure 26; Figure 28 is a coupling component The relationship between the number and the gap; FIG. 29 is a longitudinal view of the component holder of the component calibration / coupling device of the eighth embodiment of the present invention; FIG. 30 is a longitudinal sectional view of the component calibration / coupling device of FIG. 29; FIG. 31 is It has a cross-sectional view of another support pin support structure; FIG. 32 is a diagram of the relationship between the number of coupling components and their gaps; FIG. 33 is a longitudinal view of the component bracket of the conventional component calibration / coupling device; FIG. 3 4 is FIG. 3 3 is a side view of the component calibration / coupling device; drawing 35 is a plane of another traditional component calibration / coupling device; FIG. 36 is a cross-sectional view taken along the line XXXVI-XXXVI of FIG. 35; FIG. 37 is along Fig. 35 is a cross-sectional view taken along the line XXXVII-XXXVII; Fig. 38 shows the gap between the connecting parts of the elements; and Fig. 39 shows the relationship between the number of connecting elements and their gaps; [Detailed description of this preferred embodiment] The preferred embodiments of the present invention are described with reference to the drawings. For the sake of simplicity, in these figures, the same parts are marked with the same numbers. The following will refer to drawings 1 to 11 to explain the preferred embodiment of the first device calibration / coupling device of the present invention. Fig. 1 is a longitudinal view of a component holder of a preferred embodiment of the first component alignment / coupling device of the present invention. Figure 2 is along line Π-E of Figure 1 -1 1-(Please read the precautions -rf fill in this book · order-line · this paper "Standard for the use of standard B sleepy home (CNS) <; P4 specification (210X29 / male dragon) 81. 7. 20.000ik (ll) 9 · Α0 ^ Λ 6 It 6 V. Description of the invention (in) Beigong Xiaoji Cooperative Society of the Bureau of Standards, Ministry of Economic Affairs of China 51 printed profile Fig. 3 is a cross-sectional view taken along the line mm in Fig. 1. Fig. 4U) is a plan view of a circular plate spring connected to the component holder of Fig. 1. 4 (b) is a cross-sectional view of the circular plate spring of FIG. 4 (a). Fig. 5 is a longitudinal view of an embodiment of the first component alignment / coupling device according to the present invention. Fig. 6 is a front view of this element calibration / coupling device. Fig. 7 is a flowchart of the manufacturing process of the light emitting and receiving elements to 8 (c). Figure 8 U) A is a longitudinal view of the manufacturing process of the light emitting and receiving elements. 9 (a) to 9 (d) are partial cross-sectional views of the steps of aligning and connecting the optical element and the connecting portion. Figure v 10 is the relationship between the number of connecting elements (aligning and connecting the optical element and the connecting part) and the resulting gap. Figure 11 shows the time taken for the calibration / connection work in each step. In the first embodiment of the device alignment / coupling device, as shown in FIGS. 1 to 3, the cylindrical support has two through holes 22, and the two lead pins 12 of the optical element 11 will be inserted into the through holes. Therefore, the optical element 11 can be fixed to the top of the element holder 21. The bottom of the element holder 21 is fastened to the central part of the disk-shaped holder 23. At the peripheral portion of the bracket 23, there are two opposite cut-out portions 24. The circular plate spring 26 is located between the component holder 21 and the support hole 25, and its elastic force will support the component holder 21. As shown in FIG. 4, the central portion of the circular plate spring 26 has a hole 27. The circular plate spring 26 has a pair of mounting holes 2 8 on a straight line X passing through the center of the circle 0. The two mounting holes are equidistant from the center of the circle. There is another pair of mounting holes 2 9 on the straight line Y that is perpendicular to the straight line X and passes through the center of circle 0. The two mounting holes are also equidistant from the national center. As shown in Figure 2, the fixing pin 30 penetrates into the mounting hole -12- This paper is used in the B B home sample standard (CNS) A 4 specifications (210x297 mm) 81. 7. 20.000ik (i!)

(Please read the precautions before you fill in this JK installation-binding--line-A 6 Π 6 V. Description of invention (21) 28, so that the circular plate spring is fixed to the bracket 23; and as shown in Figure 3 Since the fixing pin 31 penetrates into the mounting hole 29, the disk spring is secured to the upper end of the support hole 25 of the machine body. Therefore, due to the operation of the disk spring 26, the component support 21 and the support hole 25 of the machine body and the support Flexible connection between 2 and 3. The connection surface of the optical element 11 placed on the element holder 21 may be inclined at an angle to the connection surface of the connection portion. The disc spring 26 may be made of metal (such as phosphor bronze or stainless) Net) or synthetic resin. The element holder 21 supporting the optical element 11 can move in the horizontal direction, and the connecting portion 13 connected to the optical fiber 14 can move in the vertical direction. As shown in FIG. 5, two support holes 25. It is supported by the X-machine 32 and Y-machine 33. The X-machine can move horizontally in the X direction. The Y-machine can move horizontally in the Y direction perpendicular to the X direction. Facing the light element 11 The coupling element 13 is supported by the support arm 34. The support arm 34 is placed on the Z-machine 35, the Z-machine can It moves in the Z-direction perpendicular to the X-direction and Y-direction. The optical element 11 is placed on the element holder 21. As shown in FIG. 6, the bracket 37 is fixed to the lower end of the holder 23 via bolts 36. The electrode plate 39 is also fixed to the bracket 3 7 through the bolt 38. A wire (not shown) is connected to the electrode plate 39. Another support bracket 41 is fixed to the lower right end of the bracket 23 through the bolt 40. The support The lower part of the bracket 41 is Y-shaped, and the work support 42 is rotatably connected to the support bracket 41 through the action of a pin 43. There is a grip at the bottom end of the working rod 42. The front end of 4 2 has a clamping plate 44. The wire pin 1 2 of the optical element 1 1 is composed of the clamping plate 4 4 (constructed by rubber-13-this paper standard is used in a Η family sample standard (CNS ) A 4 specifications (210X297 g *) Wl. Remarks on the back 1¾ Sun fill out this booklet C3: Printed by the Ministry of Economic Affairs Centennial Bureau C3: Printed by the industrial and consumer cooperatives 81. 7. 20.000ik (ll) Λ 6 η 6

The Ministry of Economic Affairs + Central Bureau of Standards and Commerce A industrial and consumer cooperation Du Yin M 5. The description of the invention (12) completed) and the electrode plate 39 are clamped. When the metal piece 45 is attracted by the magnetic force of the magnet 46 fixed to the holder 23, the working rod 42 will be maintained horizontal, and the lead pin 12 of the optical element 11 is fixed. The device calibration / coupling device of the present invention can be used in the manufacturing process of light emitting and receiving devices used in optical communications. The manufacturing process of the optical link will be described below. As shown in FIGS. 7 and 8, the semiconductor crystal H is connected to the lead frame 47 to constitute the base material 48. Next, the photoelectric conversion element 49 and the electro-optical conversion element 50 are aligned with the connecting portion, respectively, and are connected to the connecting portion by welding. Connect the scoop and check its function. As shown in Fig. 8 (a), the electro-optical conversion element 49 is coupled to the base material 48, and the photoelectric conversion element 50 is coupled to the base material. As shown in Fig. 8 (b), this component is molded with resin to make a wedge-finished product 51. Finally, as shown in FIG. 8 (c), the socket 52 is connected to this product to make a finished product. The following will describe how to use the device calibration / connection device of the first annoying embodiment to calibrate and connect the electro-optical and photoelectric conversion elements and the connection part. The following first describes the calibration and connection function of the electro-optical conversion element and the connection part. Insert the wire pin 12 of the light emitting element into the perforation 22 of the holder (as shown in FIGS. 1, 5, and 6), so that the light element is placed on the element holder 21. Turn the working rod 42 to the level so that the lead pin 12 of the optical element 11 is clamped by the electrode plate 39 and the clamping plate (rubber) 44. The sleeve 13 with the lens 13a is placed on the support arm 34 of the Z-machine 35, and this sleeve 13 is the coupling part. Then, the support arm 34 is moved in the Z direction, so that the sleeve 13 is close to the light emitting element 11 so that it is connected to contact each other. In this way, -1 4-

'(Please read the precautions before you fill in this one X pack · book · line · the size of this paper uses the Chinese National Standard «quasi (CNS) A 4 specifications (210 > < 297 male dragon) 81. 7. 20.000 ik (H) V. Description of invention U3) A 6η 6 Ministry of Economic Affairs Central Bureau of Examination EX Industrial Consumer Cooperation Du Yin 5i

> The X element connected to the actual spring is placed at the end. The element and the 13-gap 11 (the one of a is bound to the light as the top position light)) the exchange phase 1) draw a Hgll close one panel to send the phase of the whole shot (C conversion line _. Qian Yuanguo 26's holding 13 adjustments] 9 light turns into (¾ rice 1 painting 2 yuan will be like a spring on the spring since the dimensional electric power. The share is now removed 1 See the shelf smooth .., Play 2 rooms Set the moving beam (I will connect the optical connection to 3 hair knots, and the support of this plate frame can be welded to the frame. There are 4 pieces and the joint is flat enough. The round support surface 14. The support is not connected to the element surface. After the square point of the fiber is bound. The back of the piece and the combined value are equal to the total strength of the element. The elastic support is enough, or, to connect (d to, ||) to show the peace of the peace of the place, the same direction, the share is set 39) Ir has touched each other from 2623 degrees for nearly 13 of them. Rear and uDJIAj diagram. Rely on the tube, and use the spring frame to get the ax to complete the standard (M (p «fet, for example, the quasi 13 sets can be elastically supported so that the 13 is removed in the Η joint school. The small school tube can get the plate and the Yes, the 13-pole shift diagram of the dense mirror 11 is very suitable. Yuan, 25 rounds of tightening penetrating parts are used to check the two parts of the 13 cylinders, and the shape of the hole is made with the cylinder sleeve 21 of the Yuan. The unitary value of the light unit is 11, two structures, 21 supports, and 1311 light finish sets and racks. The combined strength of the light is a special frame supporting the square tube. The pieces are sent. And 11 pieces, the sequence gap S and the thin The element pressure is supported by the coupling sleeve and)) 11 pieces of the middle table gap pieces are detailed and the pieces are Y and the light, (b pieces of pole elements with a standard of 10 are more prominent. Example and another piece and 11 flat sent into the 19 yuan two self-love between the school drawing. 5 Figure light touches the application, 2 yuan axis piece insertion {S- when shooting parts-(please pay attention to WJ first and pay attention Matter # Fill out this book ^ Pack. Order · This paper is used in the standard "B Family Support Standard (CNS) Ή Regulations (210x29 / gong; Jt) 81. 7. 2〇.000ik (ll)

V. Description of Invention (114) Du Yin 5i, Beigong Consumer Cooperation, Bureau of Standards, Ministry of Economic Affairs, said the time spent in each step of the calibration and connection process of optical components and connection parts. As shown in the figure, the time required for each step is much reduced compared to conventional component calibration / coupling devices. The time consumed by the device of the present invention is 27.3 S of the time consumed by the conventional device: ○ The second preferred embodiment of the present invention will be described below with reference to FIGS. 12 to 16. Fig. 12 is a longitudinal view of the component holder of the component alignment / coupling device of the second embodiment of the present invention. Fig. 13 is a cross-sectional view taken along the line XIII-XIII of Fig. 12; Fig. 14 is a cross-sectional view taken along the line XIV-XIV in Fig. 12. Fig. 15 (a) is a plan view of a disc spring used in the device. 15 (b) is a cross-sectional view of the circular plate spring of the garden 15 (a). Figure 16 shows the relationship between the number of connection elements and their gaps. As shown in FIGS. 12 to 14, in the device alignment / coupling device of the second embodiment, the component holder 21 is elastically connected to the support holes 25 by the circular plate spring 55; the circular plate spring 55 is located on the component holder 21 and Between the support holes 25, the circle x will match, 0 spring shows 7 οε, Ltr 2 ^ The orifice plate 13 has a circle diagram with the same copy 〇 〇Λμ 8 9 韵 2 2 An An 55 pair installed in the central hole The springs spring one by one with a plate, and the other circle, »shown on the axis. Υ 5 5¾ 1 5 & the spring on the X axis is straight like a spring. The mounting hole of the plate shaft is inserted into the fixed insert and fixed. The 55 pin spring fixed elastic fixed plate will be round, which will be displayed. 4 »8] 2 If the hole is installed, install the person 23. The axis of the 5-point spring fixed elastic fixing plate can be X. it: the hole-supported shell machine is fixed. The fixed pin fixed and 8 2 holes are installed with 0 »two white on the end (please read the back first And the precautions are required to fill out this book \ Pack · Order · This paper standard is used in the National B Standard (CNS) Ή specification (210X297 public: ¢) 81. 7. 20.000ik (l!)

2i〇 ^ V Λ 6 η 6 Printed by the Cooperative Society of the Ministry of Economic Affairs of the Central Bureau of Economics and Trade 5. The description of the invention (15) A pair of grooves 5 6 and 5 6. At both ends of the fixing point (mounting hole 29 and fixing pin 31) on the Y-axis, there is a pair of grooves 57 and 57. Therefore, the element holder 21 is elastically coupled with the support holes 25 by the action of the disc spring 55. The coupling surface of the photovoltaic element 11 mounted on the element holder 21 is different from the coupling surface of the coupling portion by an angle. In order to align and couple the optical element 11 with the coupling portion, the coupling portion is pushed toward the optical element 11 fixed by the element holder 21, so that the coupling surface of the coupling portion and the coupling surface of the optical element 11 are in close contact. At this time, if the parallelism between these elements is not enough, the special structure of the present invention can automatically adjust them to be parallel. As described above, the element holder 21 is elastically supported by the circular plate spring row, and the circular plate spring is supported by the support hole 25 and the bracket 23. Therefore, when the optical element is inserted into the coupling part, if the parallelism between the coupling faces of the element is not enough, the optical element 1 1 in the element holder 21 will be inclined, so that the coupling face of the element holder 21 and the coupling part Close contact. Therefore, there will be no gaps between the coupling surfaces. It is worth noting that on both sides of the two support holes in the X-axis direction of the circular plate spring 55, there is a pair of grooves 5 6; two of the two support holes in the Υ-axis direction of the circular plate spring 55 On the side, there are a pair of grooves 57. Due to the action of the grooves 56 and 57, a small force is applied in the X-axis or Y-axis direction to deform the disc spring 55. Therefore, the element holder 21 is more likely to be bent due to force, and therefore, the mounted optical element 11 will be more easily shifted to a position where it is in close contact with the connecting portion without a gap. Figure 16 is the gap between the optical element 11 and the connecting part, and the connecting element -1 7-the paper »standard Xiao Bing home standard (CNS) A 4 specifications (2) 0Χ297 male dragon> 81. 7. 20,000¾ (! [)

_ · * ········· (Please follow w1ft's precautions and fill in this one X pack-order _ line-1 0 0Yi Printed by the Ministry of Economic Affairs 1. The relationship between the number of invention descriptions (16). As shown in the figure, there will be no large gap S. The gap S is very small, and the average value is 3.6 meters. The following will refer to FIG. 17 to 20 In order to illustrate the component calibration / coupling device of the third preferred embodiment of the present invention. FIG. 17 is a longitudinal view of the component holder of the component calibration / coupling device of the third embodiment of the present invention. FIG. 18 is a diagram along The cross-sectional view taken along the line XVIII-XVIII of Fig. 17. Fig. 19 is the cross-sectional view taken along the line XIX-XIX of Fig. 17. Fig. 20 (a) is a plan view of the circular plate spring connected to the element holder of FIG. Fig. 20 (b) is a cross-sectional view of the circular plate spring shown in FIG. 20 (a). As shown in FIGS. 17 to 19, in the third embodiment of the component alignment / coupling device, the component holder 21 is formed by a circular plate. The function of the spring 61 is elastically connected to the support holes 25 rows; the circular plate spring 61 is located between the component holder 21 and the support holes 25. As shown in the surface 20, the plate spring 61 has a Heart hole 27. In the X-axis direction of the circular plate spring, there is a pair of mounting holes 28. In the Y-axis direction of the circular plate spring perpendicular to the X axis, there is a pair of mounting holes 29. As shown in Figure 18, it will be fixed The pin 30 is inserted into the mounting hole 28, and the circular plate spring 61 can be fixed to the bracket 23 of the component holder 21; as shown in FIG. 19, the fixing pin 31 is inserted into the mounting hole 29 to fix the circular plate spring 61 On the support holes 25 of the casing. At the two ends of the two fixing points (mounting holes 28 and fixing pins 30) on the X axis, there are a pair of grooves 6 2, 6 2. Two on the Y axis At both ends of the fixing point (mounting hole 2 9 and fixing pin 3 1), there is another pair of grooves (5 3, 6 3. Each pair of grooves 6 2 and 6 3 has a straight portion 6 4 and an arc shape Part 6 5. Located in fixed

This "Zhang Scale Xiao uses China's" Chinese Family Standard (CNS) T4 specifications (210X297; ¢) 81. 7. 20,000¾ (II)-(please read the back-end notes first # 瑱 妙 本 Jk installed Order-2l〇 £ ^ _ V. Description of the invention (17) Point (mounting hole 28 (29) and fixing pin 30 (31)) The straight part of the groove pair 62 (63) at both ends 6 4 are parallel to each other The groove part 6 2 (6 3) of the arc part 6 5 is located around the hole 27, but its extension direction is opposite. Therefore, by the action of the plate spring 61, the element holder 21 can be elastically connected To the support hole 25 of the chassis and the bracket 23. The inclination between the coupling surface of the optical element 11 and the coupling surface of the coupling part placed on the component holder 21 can be adjusted. In order to align the optical element with the coupling part and For the coupling, the coupling part must be pushed toward the optical element 2 1 sandwiched by the element holder 21, so that the coupling surface of the coupling part is in close contact with the coupling surface of the optical element 11. At this time, if these components are If the parallelism between the two is not enough, the special structure of the third embodiment can automatically adjust the coupling surface to be parallel. As mentioned above, the component holder 21 is composed of a circular plate spring 61 Elastic support, the plate spring 61 and FIG. 25, and in turn supporting holes 23 supported by the bracket. Therefore, when the optical element is pressed against the coupling part, if the parallelism between the coupling surface of the element is not enough, the bracket member

-•••••• ', ···-····· (Please read the notes before you fill in this 2K pack ··· Employee Consumer Cooperative of the Ministry of Economic Affairs Print the end of the joint and give it a point of 6461 points and a fixed portion of the surface. The fixed point of the spring is connected to the fixed leaf spring of the joint, the two solid straight circles! G 11 This one has This plate has two round elements. The shafts are equal. When the upper groove 63 of the light touches X, it must be connected to the shaft groove and the force 6 Y to 6 outside. The tilted plate, and the groove should be round 62, there will be. Will be. The groove 63 in the oblique 11 face gap is the groove between the groove and the inclined piece. Note that if there is a copy, you will have another part. It is worthless at the end. The two arcs are used at the current paper size. The standard is (CHS) TM specification (210 father 297 male dragon) 81 . 7. 20,00〇i | c (II) 10 ^ 10 ^ The Ministry of Economic Affairs, Bureau of Standards, Beigong Consumer Cooperative Cooperative Innu A 6 Π 6 Fifth, the invention description (18) will be deformed for a short distance. Therefore, When a small force is applied to the X-axis or Y-axis direction, the circular plate The springs will be deformed. Therefore, the element holder 21 is easily bent by external forces, so the optical element 11 mounted on the element holder 21 is easily tilted, so that there will be no gaps between the coupling surfaces. Then measure the light The gap between the element 11 and the coupling surface of the connected element. The results show that there is no large gap S. The gap S is very small, and its average value is 3.2 Che. Figure 21 is the fourth of the invention Longitudinal view of the component holder of the component calibration / coupling device of the embodiment. As shown in FIG. 21, in the component calibration / coupling device of the third bow embodiment, the component bracket 21 is elastic with the support hole 25 via the circular plate spring 66 The circular plate spring 66 is located between the element holder 21 and the support hole 25. As shown in the figure, the central portion of the circular plate spring 66 has a circular hole 27. Above the element holder 21 is a circular circular plate spring 66, round There are two pairs of support assemblies 67 and 68 on the leaf spring 66. The spring 66 can be fixed to the bracket 23 by the fixing pins 30 at two fixing points on the X axis; by the two fixing points on the Y axis The function of the fixing pin 31 can fix the spring 66 to The top end of the support hole 25. Therefore, by the action of the spring spine 6, the component holder 21 can be elastically coupled to the two support holes 25 of the cabinet and the bracket 23. The optical element 1 1 clamped by the component holder 21 , The inclination between the connection surface of the connection part can be adjusted. In order to calibrate and connect the optical element 11 and the connection part, the connection part -20 must be used ) Ή Regulations (210X297 public *) 81. 7. 20.000ik (ll) _ (Please read the precautions first and then 蜞 " this set · order · Λ 6 Π 6 2103 ^ 7 V. Description of invention ( 19) The part is pushed toward the optical element 1 1 sandwiched by the element holder 21, so that the coupling surface of the coupling portion is in close contact with the coupling surface of the optical element 11. At this time, if the parallelism between the coupling surfaces of these elements is insufficient, the special structure of the fourth embodiment can automatically adjust the parallelism. As described above, the component holder 21 is elastically supported by the rows of springs 66, and the spring 66 is supported by the support holes 25 and the bracket 23. Therefore, if the parallelism between the connected elements is not sufficient, when the optical element is pressed toward the coupling portion, the optical element 11 on the element holder 21 will tilt, so that the coupling surface between the element 11 and the coupling portion is tight contact. Therefore, there will be no gaps between the connecting surfaces of the connected components. Fig. 22 is a longitudinal view of the component holder of the component alignment / coupling device of the fifth embodiment of the present invention. As shown in FIG. 22, in the component alignment / coupling device of the third embodiment, the component holder 21 is elastically coupled to the support hole 25 by a circular plate spring 71, and the circular plate spring 71 is located in the component holder 2 1 and between support holes 25. As shown in the figure, the circular plate spring 71 has a circular hole 27 in the central portion. The disc spring has a pair of mounting holes 28 in the X-axis direction, and another pair of mounting holes 29 in the Y-axis direction perpendicular to the X-axis. Inserting the fixing pin 30 into the mounting hole 28 can fix the disc spring 71 to the bracket 23 of the component holder 21; in addition, inserting the fixing pin 31 into the mounting hole 29 can fix the disc spring 71 to the support of the cabinet Top of hole 25. There are a pair of grooves 7 2, 7 2 on both sides of the two fixing points (mounting holes 28 and fixing pins 3 0) on the X axis. The grooves 7 2 are projected from the circumference of the spring 7 1 to the pan -2 1-This paper uses the national sample rate (CNS) «M specifications (210 father 297 public goods) of the paper standard (please read the precautions before filling in this package · order_ Ministry of Economic Affairs β Industry Consumption Cooperation Du Yin 51 81. 7. 21) .000¾ (II) 2103 ^ 7 A 6 Π 6 KX Industry Consumers' Central Cooperation Bureau of the Ministry of Economic Affairs allows cooperation Du Yin ^ V. Description of invention (20) Inner extension. On 3 1) on both sides. There are parts around the spring 7 4 and arc pins 3 0 (3 1)) on both sides. The groove is paired, and its direction is the role of 7.1, and the inclination between the junction surfaces of the component holder is to push the light element part to the connection surface of the element. If the special structure is connected, the bracket 21 is The parallelism between the projectile 25 and the bracket 23 is not enough. The junction surface of the optical elements on the row 1 is tight and there is a gap. Because of the number 7 5, therefore, both can make the two fixing points on the Υ axis of the circular plate (the mounting hole 29 and the other pair of grooves 73, 73 of the fixing pin, the groove 72 is extended by the inner side of the spring 71. The grooves 72 and 73 each have a straight line portion 75. At the fixed point (the mounting hole 28 (29) and the straight line portion 74 of the fixed groove pair 72 (73), are arcs 7 2 (7 3) that are flat with each other The shape part 7 5 is located opposite to the hole 27 in the figure. Therefore, the element holder 21 can be elastically coupled to the support hole 25 and the bracket 23 of the cabinet by a disc spring. The coupling surface of the optical element 11 on the mounting 21 is The coupling angle of the coupling part can be adjusted. The alignment and alignment of the component 11 and the coupling part requires the optical element 1 1 clamped by the coupling bracket 2 1 so that the coupling surfaces of the optical element 11 of the coupling part are closely aligned Contact. The parallelism between this surface is not enough, the parallelism of the fourth embodiment can be adjusted automatically. As mentioned earlier, the element spring 71 is elastically supported, and the spring 71 is supported by the support hole. Therefore, If the connection surface of these components is between the components, when the optical component is pressed toward the connection part, the component holder 11 will tilt, so that The element 1 1 is in contact with the coupling portion. Therefore, there is no groove between the coupling surface of the coupling element. The pairs 7 2 and 7 3 each have a linear portion 7 4 and a circular arc portion that apply to the disc spring in any direction The small external force of 7 1 is deformed by 7 1. Therefore, the optical element 1 1 can be connected with -22-fill in this matter first, and then fill in this book 3. The bound paper is used in the national B standard (CNS) TM specifications (210x297g *) 81. 7. 20,000¾ (I!)

2103V Λ 6 η 6 Printed by the Zhengong Consumer Cooperative Society of the Ministry of Economic Affairs, Seongnam-do Bureau 51 V. Description of the Invention (21) The parts are in close contact without gaps. Fig. 23 is a longitudinal view of the component holder of the component alignment / coupling device according to the sixth embodiment of the present invention. 24 is a cross-sectional view taken along the line XXIV-XXIV of FIG. 23. Fig. 25 (a) is a plan view of a disc spring coupled to the element holder of Fig. 23. Fig. 25 (b) is a cross-sectional view of the disc spring of Fig. 25 (a). As shown in FIGS. 23 and 24, in the component alignment / coupling device of the sixth embodiment, the component holder 21 is connected to the support hole 25 by a circular plate spring 81, and the circular plate spring 81 is located on the component holder Between 2 1 and the support hole 25. As shown in the figure, the circular plate spring 81 has a circular hole 27 in the central portion. There are three mounting holes 28 around the circular plate spring 81, and their distances are equal. There are three additional mounting holes 29 around the mounting hole 28 around the circular plate spring 81, and their distances are also equal. By inserting the fixing pin 30 into the mounting hole 28, the spring reed 81 can be fixed to the bracket 23 of the component holder 21; by inserting the fixing pin 31 into the mounting hole 29, the spring 81 can be fixed to the upper end of the support hole 25. Therefore, by the action of the circular plate spring 81, the element holder 21 can be elastically coupled to the case support hole 25 through which the bracket 23 passes. The inclination angle between the coupling surface of the optical element 11 and the coupling surface of the coupling portion can be changed. In order to align and connect the optical element 11 and the coupling part, the coupling part must be pushed toward the optical element 11 held by the element holder 21 so that the coupling surface of the coupling part and the coupling surface of the optical element 11 Close contact. At this time, if the parallelism between these components is not enough, the parallelism can be adjusted automatically due to the special structure of the sixth embodiment. As mentioned earlier, Yuan-23-This paper standard is used in the BB home sample standard (CNS) T4 specification (210x297 g; «:) 81. 7. 20.000¾ (II) (please read the precautions first Crucible Script 1 X, loaded. 2l〇 ^ v Λ 6 Π 6 Printed by the Central Standards Bureau of the Ministry of Economic Affairs 13: Printed by Gongzhong Zhong Cooperative Society 5. Description of Invention (22) Piece holder 2 1 is supported by spring 8 1 row elastically, and spring 8 1 is supported by the support hole 25 and the bracket 2 3. Therefore, if the parallelism of the coupling surface between the coupling elements is not enough, when the optical element is pressed toward the coupling part, the fixing point (fixing pins 30 and 31) The fulcrum will be deformed, so that the optical element 11 is inclined along the connection surface of the connection part of the chopstick. The disk spring can be deformed according to the external force applied by the chopstick in any direction, so that the optical element 11 and the connection part closely No gaps will occur. Then measure the gap between the optical element 11 and the connecting part. The measurement results show that there will be no large gap S. The gap S is very small, and its average value is 2.8 meters. As in the 6th embodiment described above, the elastic component is a metal disc spring, but it also It can be of different shapes or made of other materials. The position and number of fixing points between the spring and the bracket and the support hole can be changed according to our needs. As mentioned above, calibrate / connect the device at the sixth component In the embodiment, there is a flat-shaped elastic component located around the optical element sandwiched by the component support. There are several first connecting parts on the elastic component to be fixed to the component support. The coupling part can be fixed to the chassis. The printing makes the parallelism between the optical element and the coupling surface of the coupling part not enough. When the optical element is pushed toward the coupling part, the optical element on the component holder will be along the connection part The coupling surface is inclined, so that the optical element and the coupling part are in close contact without gaps. Therefore, the efficiency of the alignment and coupling of the optical element and the coupling part can be improved. -24- The paper ft scale side use Β Η Home «quasi (CNS) T4 specifications (210X297 male dragon) 81. 7. 20.000ik (II) II« 1 ·· «« (please read the precautions before filling in this IX, install-line-Λ 6η 6 Ministry of Economic Affairs Central Liangzhun Bureau®c Industry and Consumer Cooperation印 5i Fifth, description of the invention (23) In addition, in the component alignment / coupling device, the elastic component is a circular plate spring. The circular plate spring is fixed to the component holder by two points on the first straight line; the circular plate spring is The other two points on the second straight line are fixed to the casing. The disc spring has grooves, and the grooves extend from the fixed point and extend in the diameter direction, and the inside of the groove extends along the inner circle. When the plate spring is subjected to external force, it will deviate from the fulcrum by a short distance. Therefore, only a small force is needed to deform the disk spring. The optical element can be inclined along the connecting part. The seventh embodiment of the present invention will be described below with reference to FIGS. 26 to 28. Fig. 26 is a longitudinal view of a component holder used in an embodiment of the seventh component calibration / coupling device of the present invention. Drawing 27 is a sectional view of the main part of this embodiment. Figure 28 shows the relationship between the number of connected elements and the gap between the connected elements. In the seventh embodiment of the device aligning / coupling device, the disk-shaped element holder 2 1 has a socket 12 containing a wire 22. The optical element 11 may be mounted on the top of the element holder 21. When the optical element 11 is mounted on the element holder 21, the wire 11 will contact the wire pin of the optical element 11. The ring-shaped bracket 223 can elastically support the element bracket 21 by several (in this example, 3 values) radially distributed plate springs 224. In other words, the component holder 21 is located at the central part of the ring-shaped holder 2 2 3, and the component holder 21 is connected to the holder 2 2 3 by three flat springs 2 2 4. Therefore, the optical element 11 placed on the element holder 21 can be inclined along the coupling surface (not shown in the figure) of the clad coupling element. Flat shell reed 2 2 4 can be made of metal (such as phosphor bronze and -2 5-

(Please read the back and the precautions first ## 写写 本 JK 装. Order_ This paper ft scale side uses the Chinese National «Bi (CNS) T4 regulation (2 丨 0X297 public; JI :) 81. 7. 20.000¾ (II) ιΐο ^ π Λ 6 Π 6 V. Description of the invention (24) Employees of the Central Bureau of Economic Affairs of the Ministry of Economic Affairs cooperated to print stainless copper) or in order to connect the optical part if these special components of the meta-execution 2 1 borrow Supported by. Therefore, when these meta-elements 11 are connected in this way, the clearance S of the gaps shown in Figure 28 is as above. With the flat bracket and flat plate, even if there is not enough, when the optical element will There will be no work along the way. The following will refer to FIG. 29 as the connection structure of the synthetic resin element 11 and the surface and the optical element. The flat spring can be connected to the assembly along the cymbal even if the connection member is pressed. Such as small, and it is said that the spring of the first leaf spring is a gap in which the elements are connected to the connecting part by this method. When the components of the connecting component 11 are together with the components of the auto 224 together, the average value of the value shown in the connecting diagram between the connecting parts is 7 yuan, and the component branching is pressed in one part. The parallel adjustment of the calibration coupling surface, the light element between the coupling coupling surface is not 8.0. When the external components of the calibration ring bracket are started, the junction tilt method can be as shown in Figures 29 to 32. To describe the eighth component calibration and connection of the present invention, the connection must be in close contact. At this time, the degree is not enough, and the seventh actual degree is used. As described above, the parallelism of the connection surface supported by the ring holder 223 is not sufficient to tilt the optical surface on the element holder 21. Therefore, there will be no gaps. A large gap S will appear between the piece 1 1 and the connecting part. Chemi. / Embodiment of the coupling device The frame can elastically support the element and extend towards the element support. Due to the parallelism between the coupling surfaces, the slant is mounted on the component holder. Therefore, the eighth embodiment of the alignment method is very effective for the coupling surface. / The embodiment of the coupling device is read first> The idea is to fill out this binding-26-This paper is used in the standard Β «Home sample standard (CNS) Ή specification (2 丨 0X297 public *) 81. 7. 20.000ik (ll) Λ 6 η 6 V. Description of the invention (25) Vertical view. FIG. 30 is the main part of this embodiment. It is a diagram showing the relationship between the number of connected components and the gap for the support structure with another different support pin. In the eighth component calibration / coupling device of the present invention, the component holder 21 has a socket 12 containing a wire 22. Placed on the upper end of the element holder 21. When the optical element 11 is mounted on 21, the wire 11 and the wire of the light element 11 are supported by several (in this example, three) radially distributed supports, the ring bracket 3 2 3 will be elastic Support Element In other words, the element holder 21 is located in the ring holder 323 and is connected to the holder 323 by three support pins 324. The support is circular and the support pin is elastic. Therefore, the optical element 11 mounted on the can be printed along the joint plane of the joint part by the Ministry of Economic Affairs, Central Bureau of Industry and Commerce, and jointly print a cross-sectional view. Figure 3 1 Sectional view. In Fig. 32, the plate-shaped optical element 11 is placed on the element holder and can conduct electricity. Pin 3 2 4 (stick) piece holder 21. The center of the change, and the cross section of the support pin is tilted on the component holder 21 (not shown). Read the back first. Note that in order to align and connect the optical element 11 and the connecting part, the connecting part must be The coupling surface of the optical element 11 is in close contact. At this time, if the parallelism between the coupling surfaces of these elements is insufficient, the special structure of the eighth embodiment can automatically adjust the parallelism. As described above, the ring bracket 3 2 3 can elastically support the element bracket 21 by the support pins 3 2 4. Therefore, even if the parallelism between the coupling surfaces of these elements is not sufficient, when these elements are pressed together, the optical element 11 mounted on the element holder 21 will incline along the coupling surface of the coupling portion of the cymbal. Therefore, there will be no gaps between the coupling surfaces of components connected in this way. -27-81. 7. 2U.000ik (H) This paper uses the Chinese Weijia Standard (CNS) Grade 4 standard (2) 0X297 public release for the Λ scale of the paper (103) ^ 6 Π6 5. Description of the invention (26) is obvious The connection structure of the support pins 324 of the element holder 21 is not limited to the above-mentioned structure. A pole joint (Pole j 〇 i n t) as shown in FIG. 31 can also be used. When a polar core connector is used, if the coupling surface of the optical element 11 and the coupling surface of the coupling portion are tightly connected, the element holder 21 can be moved flatly. Fig. 32 is a customary view of the gap between the optical element 11 and the connecting portion connected in this way. As shown in the figure, no large gap S occurs. The gap S is very small and its average value is 6.0 microns. As described above, in the eighth embodiment of the component alignment / coupling device, the ring bracket can elastically support the component bracket by the action of the rod-shaped component; the rod-shaped component extends outward from the periphery of the component bracket. Therefore, the parallelism between the coupling surfaces of these coupled elements is insufficient. When these elements are pressed together, the optical element mounted on the element holder will be inclined along the coupling surface of the coupling portion. Therefore, there will be no gaps between the coupling surfaces of components connected in this way. Therefore, a very efficient calibration method can be obtained. (Please read the back and the precautions first #Fill in this book and order-Employee consumption cooperation of the Ministry of Economic Affairs of the Central Bureau of the Ministry of Economic Affairs to print this paper. The paper is used in the "Sleepy Family Standard (CNS) T4 specification (210X297 *) 81. 7. 20.000ik (H)

Claims (1)

10 ^ A7 B7 C7 D7 VI. Patent Application No. 8 1 1 06 30 No. 2 "Component Calibration / Coupling Device and Method" Patent Case (Amended in May 1982) A component calibration / coupling device, it has economical Printed by the Ministry of Standards and Technology R-Consumer Cooperative Society-a first part of the device that can move in the first direction is placed on the first body and the optical component clamped by the component holder-the bow can be in the second direction The first direction of movement is different; and a mounting place on the second body and movably supporting the element holder, the optical element on the shelf is easily tilted and comes into close contact with the optical element and the connecting part Copies of the gap. 2. If the component calibration of the first item of the patent application scope, the movable elastic support device is fixed at least to the component support and at least two to the second body. 3. If the component calibration of the second item of the patent application scope, the movable elastic support device is a spring fixed at the first fixed point to the first fixed point on a first straight line with the center of the circular plate spring ; The disc spring is fixed to the body at the fixed point, the two body values; this device can make the connection line in close contact; two body, the second direction is opposite, this device can make the connection placed in the connection part The quasi-coupling device is placed between the first and second fixed points between the winning surfaces. The quasi-coupling device is a circular plate spring. The element holder, the concentric circle and the two fixed points above the two points are located with elastic elements The supporting surface will not come out tightly, and the fixed point is fixed everywhere. Among them, the board is made of two squids and the second one is fixed. (Please first pay attention to the 119¾ surface and then write this page) i equipment_ order · line_ -1 -2103 'Α7 Β7 C7 D7 «Printed by the Ministry of Economic Affairs of the Ministry of Economic Affairs of the Ministry of Economic Affairs of the Ministry of Economic Affairs. $ 6. Patent application The concentric circle of the leaf spring and the 2'i line passing through the center. 4. For example, the component calibration / coupling device of item 3 of the patent application scope, in which the drawing board spring has grooves, and the grooves extending radially of each tuna are located between fixed points. 5. The component calibration / coupling device as claimed in item 4 of the patent scope, wherein the groove extends from the outside of the spring to the inside of the spring, and the inside of each groove extends along an inner circle. 6. For example, the device calibration / coupling device in the second item of the patent scope, wherein the movable elastic support device is a national leaf spring, and there is a first fixed point of 3 on the circular leaf spring, which is extended around the garden , The distance between these three fixed points is equal, and they are located on a circle concentric with the disc spring; there are another 3 second fixed points on the disc spring, looking around the circle, these three fixed points The distances are equal, and are located on a circle concentric with the M leaf spring; the second fixed point is located between two adjacent first fixed points. 7. The component calibration / coupling device as claimed in item 2 of the patent scope, wherein the movable swing support device is a radially extending flat spring from the periphery of the component holder. 8. The component calibration / coupling device as claimed in item 2 of the patent application, wherein the tiltable elastic support device is a rod-shaped spring extending radially from the periphery of the component holder. 9. A method for component calibration / coupling device, the device has: a first body that can move in the first direction; -2- (know the precautions on the back before writing this page) i equipment- Order. Line · This paper is applicable to China National Standard (CNS) A4 specifications (210 X 297 mm). 6. Apply for a patent. The garden is placed on the first machine part and the components can be placed on the first party. And the close contact gap on the shelf can connect the light to the entire unit of the element; and the light element that is not placed on the moving ground, and the light, the fixed part of the special element is inclined and the bracket surface and the bracket The two directions of clamping are the same; with the second support the easy element and Huan as the light fixed on the element and the elasticity of the element. The device on the A7 B7 C7 D7 body, this device can make the light connected The rows of components are in close contact; the second body moving upward, the second direction and the device on the body, this device can support the propeller of the elastic element, so that the placement of the component branch is inclined, and the connection surface with the connection part is tightly connected Connection surface It will not contain the following steps: on the component holder; the optical component clamped by the component support is in close contact; the component support is supported in such a way that the mounting component is easily tilted, so that the optical component is in close contact, without There is a gap welding of the optical element and the connecting part ---------------------------- Line (please read the note 4m * first and then fill out this page) Printed by Beigong Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs-3