TWM343833U - Integration rod - Google Patents

Abstract

An integration rod is combined by a plurality of structural parts and has a rectangular and hollow light pipe. The integration rod with the structural parts has at least one horizontal contact surface and at least one vertical contact surface. When the integration rod is subjected a vertical force, the horizontal contact surface can against the vertical force. When the integration rod is subjected a horizontal force, the vertical contact surface can against the horizontal force.

Description

M343833 八'•New Description: [New Technology Field] This creation side is a kind of integral column device, and copper is an integral column device with excellent strength structure. [Prior Art] In the general projection device (® not shown), the integral column (IntegratiGn R〇d) is an important optical component, and the ribs homogenize the human beam of light that is incident on the inside of the person, so that the projection device can Projects a projection plane of the luminance mean sentence. At the same time, in the light age used to cast the average light, the application of the integral column is also common. Please refer to the figure - which is a schematic diagram of a conventional integrating column device. As shown in the figure, the integrating column device ίο is a hollow rectangular column structure in which an empty interior 11 (LightTunnel; Lightpipe) is formed. When the incident light enters the optical channel η, it will be reflected multiple times and emitted by the trajectory to achieve the above uniform light. The integrator column device is formed by joining four flat glass sheets 12 (a flat sheet glass and a sheet metal). The joint between each adjacent two sheets of flat glass 12 is bonded and fixed by means of a little glue 13 to make it a hollow three-dimensional structure. The glue used for bonding may be uv glue, Silicon or Ceramic glue. When the integrating column device 10 is mounted on a projection device or a light source system, the position of the integrating column device 10 must be fixed by a fixing mechanism (e.g., a reed) to allow the light to be effectively homogenized by the integrating column device 10. When r is placed and the shirt is placed, the incident light is continuously injected into the inside of the integrating column device 1〇, which will cause heat accumulation. However, the dispensing enamel will be affected by the heat and change 5 M343833 (the adhesive force is reduced), because the entanglement between each adjacent two flat glass 12 is only glued by the glue 13 at the J3. Therefore, the integral column device is bonded. 1 () is very difficult (4) to be unable to withstand the (clamping) pressure given by the fixed mechanism and cause collapse. Especially in recent years, with the increase in the quality and clarity requirements of the investment of gold face, @this must use a high-rate bulb as a projection device (4), which causes the temperature of the person to shoot light to be extremely high, and makes the integral column The temperature of the device 10 is subsequently increased, causing the adhesive force of the dispensing material 13 to drop drastically, and the integrating column device 10 is more likely to collapse due to the pressing force. According to the above-mentioned prior art, it is necessary for the current technology to provide a practical and effective solution. No. [New content] The purpose of this creation is to avoid the problem of the integral column device being forced to collapse by improving the structure of the integrating column device. The other part of this creation - the structure of the domain New Zealand's integral points, plus

Strong structural strength, and even if the adhesive force is lowered due to excessive heat of the wire, it will not collapse. The other purpose of this creation is to use the structure of New Zealand's integral city to make the whole body. The external force of the structure 4 is equal to the failure stress that the flat structure itself can resist, and is no longer the adhesion by pure gel bonding. His/or his purpose and superior materials are further understood from the technical characteristics of this creation. In order to achieve the above-mentioned details of the integral laurel device or part or all of the purpose or other purposes, the creation is actually composed of a plurality of structural members, and a 6 M343833 hollow = optical channel is formed inside. The structural phase of the integrating column device has at least one horizontal bearing surface and at least one vertical bearing surface perpendicular to each other. When the integral column device is subjected to a vertical direction force, it can be resisted by the horizontal bearing surface and the horizontal column bearing device. In a preferred implementation, the structural component of the integral domain is a flat structure, and

The number of accumulated records is composed of at least a person's board structure, and the above-mentioned integral column device comprises two flat-shaped flat-plate structures, two parallel second flat-plate structures, and two parallel second flat plates which are provided with two parallel flat plates. . The two parallel first-plate structures are disposed with each other, and each of the -first plate structures, the outer surface and the inner surface opposite to each other, and the second plate structure parallel to each other - the upper side and the lower side face are parallel to each other The spacers are disposed, and each of the second structures has an outer surface and an inner surface opposite to each other, and an opposite side and a right side opposite to each other. The two parallel third plate structures are spaced apart from each other, and the mother-and-two plate structure has a mutual outer surface and a shouting surface, and a left side and a right side surface of the other. The two parallel fourth plate structures are spaced apart from each other by an slap and each of the fourth plate structures has an outer surface and an inner surface opposite each other and an upper side and a lower side opposite to each other. - the two parallel first-plate structures are arranged directly to the two first-plate structures, the two second plate structures are supported by the upper side of the two first-plate structures, and the two second flat structures are further supported by The lower surface of the two first-plate structures, and the inner surfaces of the two first flat/two first flat plates are combined to form the optical channel. 7 M343833 The third flat plate structure parallel to the rain is respectively stacked on the outer surfaces of the two second flat plates, and the left side surface and the right side surface of each of the second flat plate structures are respectively aligned with the outer surfaces of the two first flat plate structures. . The two parallel fourth flat plate structures are respectively stacked on the outer surface of the two first flat plate structures. The two fourth flat plate structures are supported by the left side of the two third flat plate structures, and the material of the two fourth flat plate structures is The right side of the Ke Sanwei structure. By virtue of the two slab-like structures and the two second slab structures, the slab-shaped horizontal bearing surface, the two slab structures and the slabs between the two slab structures form four vertical bearing faces. The advantages and spirit of the present creation, as well as the more detailed implementation, can be achieved by the following embodiments and methods.曰 [Embodiment] The foregoing and other technical contents, features and effects of the present invention will be apparent from the following detailed description of the preferred embodiment. The directional terms mentioned in the following embodiments, for example, up, down, left, right, front, etc. are only ginseng, Xie Xiao. For this reason, the use of the language is not intended to limit the creation. Please refer to Figure 2, which is the general principle of the riding of the integrated column. As shown in the figure, when the integral column "K" is married (for example, bribe fine material, the four piece of flat glass 12 of the integral column device ^ will be subjected to the force of (4) and hitting. In this case, due to the action of π force On the other hand, a shear force is generated at the turn η of the flat surface 12, and the shear force will be more progressively interesting. 13 _ force, into the __ column device (7) M343833's Pengling, so that the integral column is installed 〇 - ~ \ Because of the inability to withstand the fixed mechanism (the problem of material being generated by clamping the cargo force), the integral city of the wife of the 1st is composed of a plurality of reservoir components and = the product of the pure assembly (4) is formed internally - rectangular fortune Passing two knots Γ咐 • • (4) - - 娜 ϋ ϋ : : : : : : : : : : : 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽 虽5 Figure 丄,, -u Lin Creation of the integral city of different embodiments (not thinking, 泮 叙述 如下 。 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' = = = = 2G of the ageing material - and the product ', the slab structure, the above eight slab structures are two parallel brothers, the plate structure 2 b two parallel second Structure 22, two parallel stages: a flat plate structure 23 and a thin plate _24. The two parallel first flat plate structures 21 are spaced apart from each other, and the structure 21 has an outer surface and an inner surface opposite to each other, and opposite to each other: : ^ and - lower side. The two parallel second flat structures are spaced apart from each other, and each == plate 22 has an outer surface and an inner surface, (10) a side, a left side and a right side. The third flat plate structures 23 are disposed apart from each other, and each of the third flat plate structures 23 has a mutually opposing outer surface and an inner surface and opposite to each other - a left side surface and a right side surface structure - and each The four-plate structure M343833 is back and the inner surface, and opposite to each other, the upper side and the lower side. # ^ The two parallel second flat structures 22 are straighter than the two first-plate structures 21 ?? ^6 Gan, middle The two first-plate structures 21 are spaced apart by a distance, the two second flat plates are supported by the upper sides of the two first flat plates 21, and the other two second flat plates are supported by the lower side of the two first flat plates 21 With this, two first flat =: 21 and two The inner surfaces of the two flat plates are combined to form a light passage. The left and right side surfaces of each of the second flat structures 22 are larger (cut or smaller) than the outer surfaces of the two first flat structures 21 = 'The two parallel third flat structures 23 are placed on the left and right side faces of the two second flat structures 23 and the left side and the right side of the second flat plate structure 23 respectively. The surface is aligned. The outer two 24 _ is placed on the two first flat structures 21, and the two-phase flat structure 24 thereof is supported by the two third flat structures 23, and the other materials are called the other Relying on the two third flat structures a side 1 Ϊ 5, each of the fourth flat structures 24 above and below: do not dogs out of the outer surface of the two third flat structures 23. The door? After the soil and the clothes, the two first flat structures 21 and the two second flat structures 22 are horizontally abutting the surface 26; the bearing between the two third flat structures 23 and the two four U#24 is thin. Vertical bearing surface r. In the middle, the upper level and the vertical wire are 26, 27 years old, the second structure, the second, the second, the second, the second, the second, the fourth, the fourth, and the third The fourth flat structure 24 avoids slippage of the non-rotation.

M343833

Therefore, when the integrating column device 2 is subjected to the vertical direction, the circumferential force F is resisted by the four horizontal receiving faces 26; when the integrating column device is subjected to the horizontal force, it can be resisted by the four vertical bearing faces 27. In a preferred embodiment, the above-described flat structure 21, 22, 23, 24 has a slab structure. In other implementations, the upper plate structure % A & ^ can be composed of a plastic or a metal. It is worth noting that the position of the two second flat plate structures is the distance between the upper and lower sides of the first flat plate structure 21; the positions of the two third flat plate structures 23 are between the upper and lower sides of the first flat plate structure 21 The distance and the thickness of the two second flat plates are determined as the two opposite sides of the second flat plate structure do not protrude (cut or smaller than) the outer surfaces of the two first-plate structures 21, respectively. The sigh position of the flat structure % is determined by the turn of the left and right sides of the third flat structure 23. The positional tolerances of the younger-and second-plate structures 21 and 22 produced by the two second flat structures 22 and the two first flat structures 21 are due to the manufacture of the individual flat structures 21, 22, 23, 24 The dimensional tolerances are relatively clever, so the positional relationship of the above-mentioned alignment g temples is also less susceptible to errors than the conventional techniques. Fig. 4 is a schematic view of the integrating column device of the second embodiment of the present invention. As shown in the figure, in the first embodiment, two second flat structures 22 and two third flat structures 23 stacked on each other may be integrally formed to form a convex structure, wherein the bottom of the convex structure is formed. For the third flat plate structure 23, the convex portion of the convex structure is the first flat plate structure 22; or the two first flat plate structures 21 and the two fourth flat plate structures 24 stacked on each other may be integrally formed to form a convex shape. The structure, wherein the convex structure 11 M343833, the fourth flat structure 24, the convex portion of the convex structure is the first flat plate structure 2 is more detailed 7. The structural component of the integral cultivating device is a convex structure, and each convex, 冓 匕 3 base-projection, and in the plane perpendicular to the optical passage of the integral column device, 'the extension of the bottom The two opposite directions of the direction _ beyond the extending direction of the convex portion ^ opposite side. The accumulating device 3A includes a -th-convex structure 31, a second convex, a second convex-convex structure 33, and a fourth convex-shaped structure 34. - the convex structure 32 is disposed parallel to the first convex structure 31 at the first convex junction

The opposite direction. The second convex structure 33 is disposed perpendicular to the first convex structure and the second (10) structure 32. The bottom of the third convex structure % meets the upper surface of the bottom surface = the left side surface of the bottom portion 312 of the convex structure 31 and the second convex surface of the second convex structure, the left side surface of the second convex structure 33 The opposite side faces respectively support the upper surface of the convex portion 311 of the first convex-shaped structure 31 and the upper surface of the convex portion 321 of the second convex structural portion. < The fourth secret structure 34 is disposed directly to the first convex structure 31 and the second convex structure 32. The upper surface of the bottom portion 342 of the fourth convex structure 34 bears against the right side surface of the bottom portion 312 of the first convex structure 31 and the bottom portion of the second convex structure %, and the convex surface of the fourth convex structure 34 The opposite sides of the portion are respectively supported by the upper surface of the convex portion 311 of the first convex structure 31 and the upper surface 7 of the convex portion 321 of the second convex structure 32, which are t'--, second, third and The upper surface of the fourth convex structure 3, the phantom, the %, the other convex #311 321 , 331 , 341 surrounds a light passage %, and the above-mentioned bearing forms a horizontal bearing from 36 and four vertical bearing surfaces W and the above-mentioned level 12 M343833 and the vertical bearing surfaces 36, 37 are glued to join the fourth, second and second dihedral structures 3, 32, 33, 34, to avoid unnecessary slippage. shift. Therefore, when the integrating column device 30 is subjected to the - vertical direction force π, it can be resisted by the four horizontal receiving faces; when the integrating column device is subjected to the horizontal direction, it can be resisted by the four vertical bearing faces 37. In the preferred embodiment, at least one of the convex structures 3, 32, 33, and % is formed by laminating two flat plates. • Please refer to Figure 5 and Figure 6, which are the third and fourth real stats of the divisional column device. For example, the structural components of the integral column assembly (4) are ladder-like structures. The integral column device 4 includes a first stepped structure and a first stepped structure 42. The first stepped structure 41 has a first step 41, a first wall surface 413 and a second wall surface 414 respectively connected to the two ends of the first step surface 4, and a second step surface 412 connected to the second wall surface 414. The first-order surface 411 is parallel to the second-order surface, first

The wall surface 413 is parallel to the second wall surface 414, and the step surfaces 4, 412 are similar to the wall surface 414 and perpendicular to each other. The second stepped structure 42 has a third step surface 42 and is respectively connected to the ends of the third step surface 421. The wall is cut like a fourth wall and the fourth |1 white face 422 is joined to the fourth wall 424. The third-order surface cut is parallel to the fourth-order surface, and the third wall surface 423 is parallel to the fourth wall surface, and the step surfaces 421, 422 and the wall surface 424 are perpendicular to each other. With respect to the first stepped structure, the second stepped structure is flipped over the first-P-transformed structure 41, and the second stepped structure is formed.

M343833 == part of the fourth wall surface of the second stepped structure 42 that bears against the first stepped structure 41 is supported by the first wall of the first stepped J-port 41 413, ', middle, brother-step 41, second wall surface 414, third step surface 42i, and fourth wall surface = around forming a light tunnel 45, and the third step surface 421 and the second step surface still bear at the place The horizontal bearing surface 43 is formed, and the fourth wall surface 424 forms a vertical bearing surface 44 with the first wall surface. The horizontal and vertical bearing surfaces μ and the private parts are glued to connect the first step-reducing structure 41 with the second step-like contact to avoid unnecessary slippage. Therefore, when the integrating column device 40 is subjected to a vertical direction force F1, it can be resisted by the horizontal bearing member 43; when the accumulating device 4 is subjected to the correcting and biasing force, the vertical bearing surface 44 can be resisted. In addition, in the embodiment of FIG. 6, the stepped structures 41, 42 of this type are those that achieve the positioning and the force with the use of the Ρ 级 卡 棒 言 阶级 阶级 阶级 阶级 阶级 阶级 阶级 阶级 0 0 0 0 0 In the manner, the convex structures 31, 32, 33, 34 and the stepped structures 41, 42 of FIG. 4 to FIG. 6 may be made of glass material, glass material, plastic injection or It is made by a manufacturing method such as metal casting. In summary, the integrating column device of the above embodiment has the following advantages: 1. The structural members of the integrating column device have at least one horizontal bearing surface and at least one vertical bearing surface perpendicular to each other to respectively resist the vertical direction. Force and level 14 M343833 direction to make two forces to avoid the problem of the integral column device being forced to collapse. 1. By improving the structure of the integral column device to strengthen the overall structural strength, even if the adhesion force of the ", i glue is lowered due to the excessive heat of the light source, it will not collapse. 3. By improving the integral column device The structure is such that the external force supported by the overall structure is equal to the failure stress that the flat structure and the convex structure itself can resist, and is no longer the adhesion by pure colloid bonding. Good and perfect, when you can't limit the scope of this creation, that is, the equivalent of the application of patents and the new equivalent of the new version of J. The inside and outside of this creation of the _ 实 实 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或It is not intended to limit the scope of the rights of this creation. [Simple description of the diagram] AH is combined with the following detailed description _ diagram*, which will be able to understand the advantages of the above-mentioned internal climbing and this new type, among which: Learning Schematic diagram of the integral column device; Figure 2 is a front view of the conventional integrator column device; Figure 3 is a schematic view of the creation of the integral point of the creation; 7 is a schematic diagram of the third embodiment of the creation of the integral column device; and FIG. 6 is a schematic diagram of the fourth embodiment of the creation of the integral points. The symbol description of the component is 15 M343833 10 % 20, 30 % 40 : integral column Apparatus 11, 25, 35, 45: optical channel 12: flat glass 13: dispensing 21: first flat structure 22: second flat structure - 23: third flat structure φ 24: fourth flat structure 26, 36, 43 : horizontal bearing surface 27, 37, 44: vertical bearing surface 31: first convex structure 311: convex portion 312 of first convex structure: bottom portion 32 of first convex structure: second convex structure φ 321 a convex portion 322 of the second convex structure: a bottom portion 33 of the second convex structure: a third convex structure 331: a convex portion 332 of the third convex structure: a bottom portion 34 of the third convex structure: a fourth convex shape Structure 341: convex portion 342 of the fourth convex structure ·· bottom of the fourth convex structure 16 M343833 41 : First stepped structure 411 •• First step surface 412 : Second step surface 413 •• First wall surface 414 : Second wall surface 42 : Second stepped structure 421 : Third step surface 422 : Fourth step surface 423 : third wall 424: fourth wall

Claims (1)

M343833 IX. Patent application scope: 1. An integral column device comprising: a first flat plate structure of two flat jaws, spaced apart from each other, and each of the first flat plate structures having an outer surface and an inner surface opposite to each other, and An upper side and a lower side opposite to each other; a second flat structure of the two flat jaws, spaced apart from each other, and an outer surface and an inner surface opposite to each other of the second flat material, and a left side opposite to each other _ Ludou side and δ Hai some second flat structure is perpendicular to the first flat structure, one of the eight middle and two first flat-plate structures bears against the upper sides of the first flat structures _ The two flat-plate structures are further supported by the lower sides of the first-plate structures, and the first-plate structures are combined with the inner surfaces of the second flat structures to form a hollow optical channel; The third flat structure of the flattening is spaced apart from each other, and each of the third flat structures has an outer surface and an inner surface opposite to each other and a left side opposite to each other: • and - a right side surface, and the third The plate structures are respectively stacked on the outer surface of the second flat structures, and the left side surface and the right side surface of each of the third flat plate structures are respectively aligned with the outer surfaces of the first flat plate structures And two parallel fourth flat structures, which are inspected with each other, and each of the fourth flat structures has an outer surface and an outer surface opposite to each other, and an upper side and a lower side, the fourth flat plates The structures are respectively stacked on the outer surfaces of the first flat structures, wherein one of the fourth flat structures bears against the left side surfaces of the third flat structures, and the fourth flat structures The other side of the third flat plate 18 M343833 is configured to form the right side surfaces of the third flat plate, and the four flat plate structures and the second flat structures form four horizontal bearing surfaces. The third flat plate joints and the other four flat plate structures form a _ vertical bearing # surface, and the dividing surface - the vertical direction force can be resisted by the horizontal bearing surfaces, #分分Column device is subjected to horizontal action When, by the plurality of vertical bearing against the contact surface. 2. The integral column device of claim 1, wherein the left side surface and the right side surface of each of the second flat plate structures do not protrude from the outer surfaces of the first flat plate structures, respectively. 3. The integrating column device of claim 4, wherein the upper side and the lower side of each of the fourth flat structures protrude from the outer surfaces of the third flat plate structure. For example, the integral column device described in the above-mentioned patent scope, wherein the horizontal and vertical bearing surfaces are respectively glued and glued. 5. The integrating column device according to claim 1, wherein the The flat plate structure is a glass plate structure. 6. The integral column device according to claim 1, wherein the flat plates 19 M343833 are respectively made of a plastic. The integrating column device according to Item 1, wherein the flat plate structures are respectively made of a metal. 8· As set forth in the i-th article of the patent application, the stacking of the knives I, wherein two of the two stacked on each other 5 Haidi a flat structure and two of the first The second umbrella 4 ^ thousand plate structure is formed by body-forming, forming a convex structure. 9. The integrating column device according to the application of the above-mentioned item i, wherein two two materials stacked on each other - a flat structure and two The thin plate structure is a convex structure. 20