TR201816291T4 - Additional new forms of intrusive RNA molecules. - Google Patents

Abstract

The present invention relates to a ribonucleic acid, the use of such a ribonucleic acid, the use of a composition comprising such ribonucleic acid, the use of a pharmaceutical composition comprising such ribonucleic acid, and a method of inhibiting a gene expression in the target; said ribonucleic acid has a double chain structure; said double chain structure comprising a first chain and a second chain; said first chain having a first sequence of contiguous nucleotides which is at least partially complementary to the target nucleic acid; said second chain having a second sequence of adjacent nucleotides, which second sequence is at least partially identical to the target nucleic acid.

Description

DESCRIPTION RAIL FITTINGS Technical Area The present invention relates to rail assemblies by hand, and more particularly to joint connections with rail assemblies. relates to rail attachment assemblies for Prior Art Many excavating machines, such as loaders, tractors and excavators, It includes rail attachments to facilitate its movement on surfaces. These subordinates, rail assemblies for moving machines over floor surfacesIEone or more idlers It contains the drive gears that rotate the pulley or other guide components around. Each rail assembly each with pins and/or bushings (this is sometimes combined with a cartridge assembly A pair formed by a series of links joined together by contains a parallel chain. Caused by damage and collision with the useful esnalet Costs of Zlalt jewelry baknlîl, without being original,usually, the working of excavation machines account for more than a quarter of the total costs associated with An example of a prior art cartridge assembly II(10) for opened coupling connections. As shown, the cartridge assembly II(10) is thus in a dlg bushing (16). It comprises a pin (12) in an inner bushing (14). Internal parts of the inner bush (14) With the sleeves (23a, 23b), the flanked Pin (12), which acts as a reservoir for the lubricating oil, and a space between the oil bush (12) and the inner bush (14) and the inner bush (14) and the d& bush (16) It contains an oil that delivers an intermediate space (EEERanalEGZS). LubricateElltjEburç (16) and the elements (27a, 27b) positioned between the additional parts (19a, 19b) The sides and inserts (19a, 1%) and the sleeves (23a, 23b) are positioned between each other. slidlElnazllKlelemanüZga, 29b) held by The cartridge assembly (10) offers certain benefits that are particularly important for certain applications. can provide. However, it may have certain shortcomings. For example, the channel (25) will contain the production pin (12) can be mixed and costly. As another example, production connections large enough to include attachments (EQ19a, 1%) and couplings]23a, 23b) It may require large amounts of material (unlike only the pin (12) and the inner bush (14).

The described structures can be helpful in solving these problems.

Tent document numbered US4076333 Unified push element De slijlunazluaelementslub relates to a rail attachment with a is of the kind. vehicle. a crawler bush and a crawler bush suitable for use in a mounted crawler bush relates to the connection.

Short Opening According to the invention, a first connection with a first hole with a rail splicing device to a second hole having a second connection and a bushing. The bush inserts a first axial end into the first hole. section press-fit, first axial end section, first axial end of bush One dlgl diameter of the adjacent portion has a smaller dlgl diameter and a second dlgl diameter is inserted into the second hole. the axial end portion includes a press fit, the second axial end portion being a second axial portion of the bush. The axial end adjacent portion has a smaller second radius than one diameter. In addition to this Finally, the rail attachment assembly is located at an axial end of the first axial end section. a thrust ring is stretched. The thrust ring is a diameter of the first axial end section II approx. It has a dlgl diameter of 1.1 and approximately 2.0 katarasia.

Immediate Flow of Shapes Figure 1 is a view of the prior art cartridge assembly II; Figure 2 is a perspective view of a rail assembly II according to the present disclosure; Figure 3 is a sectional view of a rail assembly II of Figure 2 ; Figure 4 is a cross section of the rail attachment II of Figure 3; Figure 5 is an enlarged view of a portion of Figure 4; Figure 6 is another enlarged view of a portion of Figure 4; Figure 7 is a perspective view of a push ring II of the rail attachment assembly of Figure 3; Figure 8 is a side view of the push ring II of Figure 7; Figure 9 is a cross section of the push ring II of Figure 7; Figure 10 is a cross section of another rail attachment assembly II according to the present disclosure; and Figure 11 is a cross section of yet another rail attachment assembly II according to the present disclosure.

AyrlîitllIlZxçllZlama Figure 2 shows an exemplary rail assembly for a rail type machine. For example, a rail machine may be a loader, a tractor, an excavator, a tank, or a rail tow. devices. It may be another mobile machine with ÇaIISt-[glia rail type machine (not shown) a drive gear facilitates the movement of the rail-type machine. assembliesElDUOO) one or more idler pulleys or other guide components (not shown) can be rotated around.

Rail assembly (100), laterally located pins (120) are connected to each other and by a series of (110b) may include a series of added links (EG10a). As shown, connectors (110a and 110b), deviation can be linked. That is, the inward deflection ends (140a, 140b) and cllgh end (150a, 150b). In addition, each link. (110a) an inward diverging end 140a, a reciprocating connection II (110b) to an inward biasing end 140b can be added and each connection. (110a) right deflection tip (150a) with a dl] connector II 110b may be attached to a dlgh straight bias end 150b. However, the connections (110a and 110b), deviation links are not requiredlgluinlasllüiallß Instead of baslZl In yapllândlîilnas, there can be links (110a and 110b), internal links and dlgllinks.

In Hnas made like this, both ends of each pair of interconnects are interconnected, as is known in the art. karslüdlgllinklantllârl ends leIStlEllâcaktlEl Referring to Figures 3 and 4, rail assembly II(100) consists of an individual rail attachment assemblyEG1SS), two It may include two connections (EG10a) attached to the connector (110b). As shown, the links an insert bush (157) that can be positioned at least through the holes 160a, 160b can be fixed. Similarly, the connectors (110a, 110b) diverge outwardly, with the ends of IG1SOa, it can be fixed to a positionable pin (120). For example, fixing, pressing can be intermediateCUJgllsila. Specifically, bushing 157 is pressed into bushing pins 160a, 160b. and the pin 120 may be pressed into the pin holes 170a, 170b.

Instead, fastening, welds, spring attachments, or other mechanisms known in the art. may be mediated.

As shown, bushing 157 is coaxially oriented around pin 120. it can be positioned and rotated relative to the pin 120 so that the rail assembly (100) It allows the bush (157) to rotate on the axis to facilitate this rotation. (120) one or two of them may be plated with carbon-like diamond or electroless nickel, or can be carburized to reduce friction between bushing (157) and pin (120), can be nitrided or polished. Instead or in addition to this, a lubrication It can be placed between the whiteSkanlBush (157) and the pin (120). a generally cylindrical inner surface (200) of the inner bush 157, which can be attached at least and a generally cylindrical surface (210) of the pin (120) facing the surface (200). The lubricating fluid may be present in the El cavity 190. Prior art described above In contrast to the cartridge assemblyII, the lubricating fluid cavity 190 has an internal it may not extend into the cavity 120 . Since the pin (120) may not contain lubricating fluids, the lubricating fluidity cavity 190, the surface 200, or one or more of the inside of the surface 210 It can extend into the recess or at least the user can be identified by these recesses.

Instead or in addition to it, the lubricating fluid cavity (190), the axial of the bush (157) and at least klainen can be identified by these rings. thrust ringsEKZZOa, 220b), can transmit the axial load between adjacent rings 110a, 110b and slitllÜnazlElZl assembliesII that can be positioned as push ringsII (220a, 220b) dlSIEb It can be wiped on (240a, 240b) and lubricated in the lubricating fluidity cavity (190). Hermetically sealed ElementsHand between adjacent rings (110a, 110b) to make it bright can create.

Again, go to Figures 3 and 4 [Found Ella, with rail attachment device on bazlà lapilân lunas) deleh, coaxial to engage a drive gear (not shown) that rotates the rail assembly (IEG100) a bushing that can be positioned around the bush (157) (making the bushing (157) an inner bush) (250). Dlgl bush (250) relative to Inner bush (157) when engaging the drive gear can rotate, the dlgl caused by the sliding movement between the dHub (250) and the drive gear aslEmayllzaltortadlEI in the bush (250) This rotation is between the dlg] bushing (250) and the inner bushing (157). one or both of the dlSl bushing (250) and inner bushing (157) to reduce friction carbon or electroless nickel, or one or more of the dlgl bushing (250) and the inner bushing (157) It can be easily improved by carburizing, nitriding or polishing the two of them. instead or In addition, the lubricating fluid can be placed between the bushing 250 and the inner bushing 157.

lubrication alg or differ from it.

The lubricating fluid can be added upon installation of the CI-ray attachment device II (155) and is the most A generally cylindrical inner surface (270) and surface (270) of the dlîl bush (250) a lubrication system defined by a generally cylindrical surface 280 of the facing inner bush 157. The alkaliSkan can be found in the El cavity 260. Lubricating fluidEkanElcavity (260), lubrication A liquid in the liquid liquid cavity 260 should not affect the lubricating liquid liquid cavity 190 (and vice versa) can be isolated from the lubricating fluidity 190. Lubricating fluid cavity 260, surface 270, or one or more recesses in surface 280. It can extend or be most clearly identified by these indentations. Instead of or in addition, the lubricating fluid cavity 260 is inside the bushing holes 160a, 160b. It can extend into axially positionable thrust rings II (290a, 290b) and The decreasing klglnen can be identified by these rings. Thrust ringsE(290a, 290b), lubrication dlSI bushing (250) and connections to seal the lubricating fluid inside the fluidic cavity (260) between (110a, 110b) (310a, 310b) The axial load can be lellhandled on it. can be pressed into it. In particular, the axial end portions 320a, 320b of bushing 157 can be pressed into it. In addition, the axial end adjacent portions 340a, of bush 157 available and these. can be pressed into it. Therefore, the axial end sections may have differences from portions 350a, 350b. However, in other built buildings, may have shares with divisions (350a, 350b). as a cylindrical inner surface (380). Pin (120), at least through the hole (390) it can be positioned in it, and therefore its motion can be determined by the surface 380. sllîlgtlîllable. Accordingly, surface 380 may be a bushing surface. as shown The inner surface 380 may include three valley-shaped recesses 400, each inserted into a bush 157 and around this. and the recesses 400 in an axial direction of the bush 157. can happen. However, the inner surface (380) may contain a different indentation or a recess in a different mouate. ansllB1aI- For example, the inner surface 380 may contain between one and twenty recesses 400, and lengths (410) approx. 5% and approx. 75% of total length (420) may be araletia. However, multiple indents (400) (as opposed to a single large indent 400) It is designed to maintain the structural integrity of the bush (157) by using where the surface 380 may contain differently positioned or shaped recesses agreement- For example, the inner surface (380), the valley extending around the axial direction of the bush (157) It may contain indentations. Instead, the inner surface 380 provides both the circumferential surface of the bush 157. as well as helical recesses extending in the axial direction.

The dlgl surface 280 of bush 157 is generally defined as capable of expressing the movement of a female bush 250. a cylindrical non-diil surface 430. Therefore, surface 430 is a bushing surface. can happen. As shown, the dEI surface (430) differs from the inner surface (380) and to avoid reconciliation with the wholeness of the sign (157) recesses in the axial direction of the bush 157 relative to those of the surface 380 can be detected. Specific The dlg surface 430 may include four valley-shaped recesses 440, each of which is a bush 157. into and around it. can extend and the recesses 440 in the axial direction of the bush 157 can happen. However, the filled surface (430) may contain a different EayLElh indent or a different EayLH indent. agreement- For example, the dlg surface 430 may contain between one and twenty indentations 440, and lengths (450) approximately 7% and approximately 38% of total length (460) may be between them. But multiple indents (440) (as opposed to a single large indent (440)) It is envisaged that the structural integrity of the bush (157) can be maintained by using where the surface 430 may contain differently positioned or shaped recesses inconsistent - For example, the hollow surface (430), the valley extending around the axial direction of the bush (157) It may contain indentations. Instead, the dlg surface (430) as well as helical recesses extending around the axial direction. Yet another one in the alternative, the dlgly surface 430 aligns with those of the inner surface 380 (as opposed to deviating from them). may contain indentations.

As shown in Fig. 6 and open HZland [iZZOa with thrust ring gill over), the axial of the bush (157) may include a generally cylindrical surface 465 that can support In addition, push Halkaslîq220a) is a general method that can best define the lubricating plasticity (190). as a cylindrical inner surface (470). As shown, the digi surface (465) (and hence the thrust ring (220a)) a diameter (480) of the axial end portion of the inner bush (157) (320a) may be larger than dl diameter (370a). Specifically, dgdiameter (480), dgdiapl (370a) can be killed by approximately 1.16. Instead, dlgldiameter (480) is in another dimension. may be catarrhal.

Thrust ring II (220a) with larger diameterSlide-of-injuryLetters II (240a), not with bushing (157) It can ensure that it comes into contact with the connections (110a) nearby. Specifically, siîdunazlli assembly E(240a), a sidlünazlüg with connector(110a) on a sidlünazlüG connection interface (490) It can contact the section (485). As shown, the slîlzllilnazlmlink interface approximately 1.20 times. Instead, the dlgl diameter (500) is in another size can happen. For example, dDiameter (500), diameter (370a) approx. 1.05 and approx. It can occur with 2.5 catarrhal.

SiîtllElnazlüZi section (485), adjacent junction II (110a) facing towards the divergence end 150a connect a slîljIElnazllKl surface (505) of the inward deviation end (140a) of the connection II (110a). may contain. It may be circular and may extend from the axial end 230a of the axial end section 320a. can surround and connect. (110a) a material different from other parts of IEI may contain. That is, connection II (110a) has different material properties from other parts. may have. Different Material has a different original from the material of other parts. and with the slîdlîlnazlüîltertibatm240a) of the section (485) It can better resist wear and tear caused by contact. For example, different The material may be an electroless nickel plating, a nitride plating, or a carburized plating. can happen. Different material in basli-built lunas, one year combined with connection (110a)ZhylEEI ( pressed to another part it can be passed, it can be welded to the other section, the other section can be welded with a stick. can be fixed or the yllZlay-I(510) is an internal diameter or a diameter positioned It can be kept in the other section with the circular polarizing element. It is different in other ennas. the material may be connected to the material of the other part of the connected ELL (110a) (eg, laser kiulbma). Instead, the different material is cured with a laser or cured by a thermal sprayed material. In yet another alternative, different materials, for example chrome nitride is a thin-film coating of amorphous diamond-like carbon or tetrahedral amorphous carbon. can happen.

Referring to Figs. 7 to 9, thrust ringIGZZOa), thrust ring II (220a) bore surface (465), may contain. As shown, the axial ends (520-1 and 520-2) are each attached to the thrust ring II. (220a) push ring II (220a) with a toothed side mutual lubricating fluid Two recesses (530) that can easily extend from the inner surface (465) to the inner surface (470) may contain. Instead, the axial ends 520-1 and 520-2 are replaced by another number-III of the recesses. may contain. For example, in bazlîlapilândlülnas, the axial end (520-1) is separated from the axial end (520-2) may contain different indentations. OK [Zitme ring II (220a) along a circumference and thrust ring II (220a) extending towards a central axis, Ç-ilâr (540), approximately rectangular transverse sections 545 and as shown in Figure 9, push ring II 220a in its axial direction it can be fixed from a center of thrust ring II 220a. However, some Constructed configurations may contain ç-llârl different configurations. For example, some structures capable of extending around one full circumference of thrust ringlellEl (220a), or it can have only one line that cannot reach. Other constructions, multiple ç-üh may have, but these ç-[lar are different from ç-[lar (540) It can be shaped or positioned. For example, the rectangle as approxllZ] instead of cross-sections, they can be U-shaped or V-shaped in approximation and thrust It may or may not be detected from the center of ring II 220a.

Figure 10 shows another rail attachment assembly 155' with a different bushing configuration. showing yapllând Hnaslöl. Instead of having an inner bushing (157) and dlgl bushing (250), the rail splice assembly 155' may comprise only one single bushing 157'. On the contrary, adding rails assembly EülSS') may be identical to rail attachment devices Ela 155.

The bush 157' may be similar to the bush 157. Accordingly, only the zodiac sign (157') (, axial end adjacent sections (340a', 340b'), a middle section 570'. Therefore, the middle section (570') can be differentiated. The middle section (570') connects the drive gear with the tube around the middle section (570'). d& of the end adjacent sections (340a', 340b') to maximize the amount of diametersluhan 360a', 360b' may have a larger diameter 580'. For example, radius (, dlgldiameters (360a', 590b') at least can be positioned in the user. Middle section in other structures 570' may be located at least clinically within the interior sections 590a', 590b'.

Figure 11 shows the rail attachment assembly II (155”) with different bushing and connection configurations. Ünasl shows otherwise made. an inner bushing (157) such as rail joint assembly 155') and a dEl instead of having bushing (250), rail attachment assembly(155”), only a single bushing (157”) may contain. In addition, adding rails instead of having connectors 110a, 110b from the sign (1573 different HJE) can show. In contrast, rail attachment assemblies(155”), rail splice assemblies(155 and 155') can be identical.

Rail attachment assemblies](155, 155', 155”) components can be made from a variety of materials. can be done. For example, each of these components is made of a ferrous metal such as steel or iron. can be done.

Rail attachment assemblies II (155, 155', 155") configuration, drop-down and in shapes with the configurations shown. For example, the dlg surface of the pin (120) (210), the bushing (157) the inner surface 200 may contain recesses instead. These indentations are located on the dlg surface of the bush (157). the dg surface 280 of the bush 157 may include recesses in place of it. These recesses are inside the bush (157). may resemble recesses (400) on the surface surface (200).

Industrial Applicability Opening rail attachment assembliesRail type such as loaders, tractors, excavators It can be applied to machines and facilitates the movement of machines. AçıZJanan rail splicing assemblies has several advantages over the prior art rail splicing assemblies II can happen. For example, openZJanan rail attachment assemblies prior art rail attachment With devices, Etlan can be stronger and more durable. In addition, the rail described manufacture of splicing assembliesII prior art manufacture of splicing assembliesII less It can reduce the cost and less material used to manufacture prior art rail attachment assemblies. may require. The specific advantages of rail attachment assemblies II revealed now to be opened Rail splicing deviceEG155), rail splicing deviceHAND (155), which strengthens and improves durability The connections 110a, 110b may include direct couplings between them. Specifically, can be combined directly. Similarly, connections (110a, 110b) dlgb correct deviation endslIGlSOa, 150b) can be attached directly to pin 120 by being fixed. Connector (110a, 110b) these direct joins with the intermediary are not susceptible to vibrations and shocks. The rail attachment assembly II (155) can strengthen and improve durability. it can be built to facilitate its rotation (and therefore costly, to the machine, the drill or without the use of casting processes). In particular, the turn, bushing (157) and pin To reduce friction between the bushing (120), one or both of the bushing (157) and the pin (120) are diamond-shaped. similar carbon or electroless nickel, or one or more of the bushing (157) and pin (120) It can be easily improved by carburizing, nitriding or polishing the two. instead or In addition, the return is made by placing a lubricating fluid between the hand bushing (157) and the pin (120). can be eased. Specifically, in the lubricating fluid connections (110a, 110b) It can be added through the openings (180a, 180b) and the lubricating fluidity cavity (190) can be found in. Reaching into an inner cavity of pin 120, as pin 120 is involved instead, the lubricating rubber cavity (190) is replaced by one or more It may extend into the slot surface 210 of the recess and pin 120, or at least can be identified with them. Instead or in addition to it, the lubricating fluidity cavity 190 may extend into thrust rings II 220a, 220b, and these rings at least break can be identified with.

The material required to manufacture the rail joint assembly(155), connectors, 110b) can be made to minimize the total amount. This minimization is linked can be achieved. For example, no sleeve or slZdIEinazliEJ jointpiece, bushing hole (160a) and horoscope ( slîdiEinazlilZl The material of the section (485) of the slîdlEinazliEl section (485) with the slîdlEnazlilZltertibatE(240a) It is able to resist the originality and wear caused by contact. Therefore, the linked (110a) inward deviation inserter (140a) can be fixed directly on the bush (157), in the bushing hole Count the components found in (160a), hence the bushing hole (160a) and the connection. (110a) can minimize its size. For example, the central portion 350a of the bushing hole 160a the diameter of the diameter hole (170a) can be 1.49 times less. In addition, the horoscope may be less.

Rail attachment assemblies 155, 155' and 155”) can be optimized for specific applications however, many interchangeable parts to reduce manufacturing costs may contain. For example, with rail splice assembly155) optimized for high impact applications where the drive gears, couplings EK101a, 110b) connecting bushingsEhiliia ASILEIElken rail attachment assemblies(155' and 155”), optimized for low impact applications Here the horoscope is not really a big issue. However, the upward-angleEJandigiEl As such, these optimizations only include several rail attachment assemblies II (155, 155' and 155”). it affects the part. Therefore, rail attachment assemblies II(155, 155' and 155”) are almost All parts are interchangeable. Various modifications and variants can be made - opening rail attachment assemblies would be obvious to the skilled person. for those skilled in the art who are considering the design and implementation of devices. It will be obvious Identification and examples, a correct comprehensiveness, with appended claims and equivalents It is intended to be determined only as an example.

Claims (5)

REQUESTS 1. A rail splicing assembly ZQ1SS) comprising: a first link having a first hole 160a, a second link having a second hole 160b; a bushing 157 comprising down-cells: a first axial end portion 320a press-fitted into first bore 160a, a first axial end portion 320a, a radius of a first axial end portion 340a of bushing 157 has a smaller diameter; and a second axial end portion (320b), second axial end portion (320b), which is press-fitted into the second hole (160b), has a second dg diameter smaller than a dl diameter EU of a second axial end portion (340b) of the bushing (157); and a thrust ring positioned at an axial end (230a) of the first axial end section 320a and having a dl diameter of approximately 1.1 and approximately 2.0 times the dg diameter of the first axial end section 320a Ea290a, b). 2. Joining system with thrust rings (290a, b) positioned radially downstream of a plate surface and comprising a rail assembly Ea240a in contact with the first link (110a) at a slip ring interface (490). 3. Rail splicing assembly according to claim 2, wherein the SlîülElnazIE-connection interface (490) has a diameter of dlSJ, the first axial end section (320a) has a diameter of approximately 1.05 and approximately 2.5 layers. 4. Rail splicing assembly according to claim 3, in which the slot diameter of the slitllElnazlEconnection interface (490) has a diameter of 490, the slot diameter of the first axial end section (320a) is approximately 1.20 times. 5. Thrust ring II (290a, b) Drilling diameter of the first axial end section (320a) with a pitch of approximately 1.16 folds, rail attachment assembly according to Claim 1 or Claim 4, Thrust ring II(290a,b), thrust ring II(290a,b) Rail attachment assembly according to claim 3, wherein it comprises a generally cylindrical inner surface comprising at least one CELZLETE (540) extending towards a central axis of at least one three... (540) along a circumference of the thrust ring II(290a, b). Extended [g] At least one three... (540) thrust ring II (290a,b) in one axial direction of thrust ring II (290a,b) deviates from a center of thrust ring II (290a,b) or at least one three. .. (540), rail attachment assembly according to claim 7, comprising a plurality of three-hands