JP2008164043A - Oilless chain - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an oilless chain for preventing the leakage of lubricating oil and the entry of external dust and suppressing sliding contact wear between a connection pin and a bush to prevent the wear elongation of the chain while greatly reducing the manufacturing burden of the chain without applying surface finishing work to the outside face of an inner plate and the inside face of an outer plate. <P>SOLUTION: In the oilless chain 100, inner links 140 each having the bush 130 pressed and fitted into the inner plate 110 and outer links 170 each having the connection pin 160 passing through the bush 130 and pressed and fitted into the outer plate 150 are alternately connected to each other. Lubricant is filled between the bush 130 and the connection pin 160. A seal ring 180 is loosely fitted and held in ring holding grooves 113, 154 shaped concentric with the connection pin 160 and recessed in the outside face 112 of the inner plate 110 and in the inside face 153 of the outer plate 150, respectively. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an oil-free chain used for a transmission roller chain, a transport conveyor chain, etc., and in particular, press-fitting both ends of a pair of front and rear bushes into bush press-fit holes of a pair of left and right inner plates. The inner link and the outer link formed by press-fitting and fitting both ends of a pair of front and rear connecting pins penetrating into the bush respectively into the pin press-fitting holes of a pair of left and right outer plates are alternately connected in the longitudinal direction of the chain, The present invention relates to an oil-free chain in which lubricating oil is sealed between an inner peripheral surface of a bush and an outer peripheral surface of a connecting pin.

Conventionally, an outer link in which both ends of two outer link plates are connected by pins and an inner link in which two inner link plates are connected by bushes are alternately connected by loosely fitting the pins to the bushes. In addition, there is known a seal chain provided with a sealing means for sealing lubricating oil injected between the pin and the bush. The sealing means of such a seal chain includes an elastic seal that is press-contacted between a ring member disposed so as to contact at least the axial end face of the bush and the ring member and an outer link plate facing the ring member. A ring (see, for example, Patent Document 1).
JP 2004-256262 A (column 4, FIG. 3)

  In the conventional seal chain as described above, a ring member and an elastic seal ring are provided in order to maintain the sealing effect of the lubricating oil injected between the pin and the bush by sealing between the bush and the outer link plate. The bush is arranged in a pressed state between the outer link plate and the pressing force in such a pressed state causes the relative bending resistance between the outer link plate and the inner link plate, that is, the bending resistance of the chain itself. There was a problem of getting bigger.

  Further, in order to prevent a reduction in the sealing effect caused by the sliding contact and abrasion of the ring member and the elastic seal ring with respect to the outer link plate, etc., the inner side surface of the outer link plate that contacts the ring member and the elastic seal ring There is a problem in that it is necessary to perform a surface finishing process to reduce the surface roughness of the end face of the bush, and the processing burden of the surface finishing process increases.

  Further, when the chain is manufactured, the ring member as the sealing means and the elastic seal ring are arranged in a pressed state between the bushes and the outer plate, which are basic chain components, so that the assembly of the chain is deteriorated. was there.

  Therefore, the present invention solves the conventional problems, that is, the object of the present invention is to prevent leakage of lubricating oil and intrusion of external dust when the chain is operated, and to prevent the outer peripheral surface of the connecting pin and the bushing from entering. The chain wear can be prevented for a long period of time by suppressing the sliding contact with the inner peripheral surface of the inner plate, and the chain manufacturing burden is eliminated without subjecting the outer surface of the inner plate to the inner surface of the outer plate. It is to provide an oil-free chain that can be significantly reduced.

  The present invention according to claim 1 is characterized in that both ends of a pair of front and rear bushings are inserted into the bush press-fit holes of the pair of left and right inner plates and both ends of the pair of front and rear connection pins penetrating into the bushes. The outer links formed by press-fitting the portions into the pin press-fitting holes of the pair of left and right outer plates are alternately connected in the longitudinal direction of the chain, and lubricating oil is provided between the inner peripheral surface of the bush and the outer peripheral surface of the connecting pin. In the oil-free chain formed by sealing, a seal ring that seals a gap between the inner plate and the outer plate is concentric with the connecting pin formed on the outer surface of the inner plate and the inner surface of the outer plate, respectively. By being loosely fitted and held in the ring holding groove, the above-described problems are solved.

  The present invention according to claim 2 further solves the above-described problem by the end of the bush partially protruding from the outer surface of the inner plate in addition to the structure of claim 1. is there.

  According to a third aspect of the present invention, in addition to the configuration of the first aspect, the inner width Do of the outer link, the outer width Di of the inner link, the depth Dho of the ring holding groove of the outer plate, and the ring holding of the inner plate The groove depth Dhi and the length Ds of the seal ring in the chain width direction are formed so as to satisfy Do-Di + Dho <Ds <Dho + Dhi and Do-Di + Dhi <Ds <Dho + Dhi, respectively. It is a further solution.

  According to a fourth aspect of the present invention, in addition to the configuration of the second aspect, the inner width Do of the outer link, the outer width Di of the inner link, the depth Dho of the ring holding groove of the outer plate, and the ring holding of the inner plate The depth Dhi of the groove, the length Ds of the seal ring in the chain width direction, and the protruding amount Db of the bushing end portion from the outer surface of the inner plate are Do−Di + Dho−Db <Ds <Dho + Dhi + Db and Do−Di + Dhi−Db <Ds <. Each of the above-described problems is further solved by being formed so as to satisfy Dho + Dhi + Db.

  Therefore, the present invention provides a pair of left and right ends of a pair of front and rear connecting pins penetrating into the bushing and the inner link formed by press-fitting both ends of the pair of front and rear bushes into the bush press-fitting holes of the pair of left and right inner plates. The outer links formed by press-fitting into the pin press-fitting holes of the outer plate are alternately connected in the longitudinal direction of the chain, and the lubricating oil is sealed between the inner peripheral surface of the bush and the outer peripheral surface of the connecting pin. As a result, not only can the chain drive be performed for a long period of time without lubrication from the outside, but also the following specific effects can be achieved.

  According to the oil-free chain of the present invention according to claim 1, the coupling is formed by sealing the seal rings for sealing the gap between the inner plate and the outer plate on the outer surface of the inner plate and the inner surface of the outer plate, respectively. By being loosely fitted and held in the ring holding groove concentrically with the pin, the leakage path of the lubricating oil generated between the ring holding groove and the seal ring of the inner plate and the outer plate is bent in a complicated shape. With a labyrinth structure, it is possible to prevent the lubricating oil from leaking due to centrifugal force generated by circular running during chain operation and to suppress the intrusion of external dust and to prevent the chain from extending wear over a long period of time. Lubricating oil is accumulated in the annular oil reservoir region created between the outer peripheral surface of the connecting pin, the inner surface of the outer plate, the outer surface of the inner plate, and the inner peripheral surface of the seal ring. Is, since suppressing the momentum of the lubricating oil to be Daso bleeding the annular oil reservoir region, it is possible to further improve the sealing effect.

In addition, since the seal ring is loosely fitted and held in the ring holding groove of the inner plate and the ring holding groove of the outer plate, a seal is provided between the ring holding groove of the inner plate and the ring holding groove of the outer plate when the chain is manufactured. Since the ring only needs to be loosely fitted, compared to the conventional seal chain in which the seal member is placed in a pressed state between the bush and the outer link plate, disassembly and assembly work such as chain cut-off can be easily achieved. When the chain is operating, it can be smoothly bent and run around.
In addition, in the conventional seal chain, the surface that reduces the surface roughness on the outer surface of the inner link plate and the inner surface of the outer link plate in order to prevent sliding contact wear of the seal member and maintain the sealing performance of the lubricating oil. Although it is necessary to perform finishing, the oil-free chain of the present invention does not require surface finishing as in the prior art, and can reduce the manufacturing burden of the chain.

  According to the oil-free chain of the present invention according to claim 2, the end of the bush partially protrudes from the outer surface of the inner plate, so that the inner link is skewed in the chain width direction with respect to the outer link when the chain is operating. Even when rocking or unevenly distributed, the bushing end surface with a small sliding area and the inner surface of the outer plate come into contact with each other, and the outer surface of the inner plate with a larger sliding area and the inner surface of the outer plate are in contact with each other. Since the contact is completely prevented, the chain can be smoothly bent and slid over a long period of time, and compared with the case where the outer surface of the inner plate and the inner surface of the outer plate are in contact with each other, Since the gap between the bottom surface of the ring retaining groove and the bottom surface of the ring retaining groove on the outer plate is widened, the seal ring has a chain width between the bottom surface of the ring retaining groove on the inner plate and the bottom surface of the ring retaining groove on the outer plate. It is possible to prevent excessive wear damage of the seal ring caused when the sliding contact with the bottom surface of the ring holding groove at narrow pressurized state countercurrent.

  According to the oil-free chain of the present invention according to claim 3, in addition to the effect of the oil-free chain according to claim 1, the inner width Do of the outer link, the outer width Di of the inner link, and the ring holding groove of the outer plate The depth Dho of the inner ring, the depth Dhi of the ring holding groove of the inner plate, and the length Ds of the seal ring in the chain width direction satisfy Do-Di + Dho <Ds <Dho + Dhi and Do-Di + Dhi <Ds <Dho + Dhi, respectively. Therefore, even when the inner link is skewed, swung, or unevenly distributed in the chain width direction with respect to the outer link during chain operation, the outer surface of the inner plate and the inner surface of the outer plate are The seal ring is pressed in the chain width direction between the bottom surface of the ring retaining groove on the inner plate and the bottom surface of the ring retaining groove on the outer plate. Since the sliding contact with the bottom surface of these ring holding grooves is prevented, the wear damage of the seal ring can be prevented, and the seal ring is prevented from coming off from the ring holding grooves of the inner plate and the outer plate, so that the lubricating oil Is prevented from leaking to the outside, sliding wear between the outer peripheral surface of the connecting pin and the inner peripheral surface of the bush can be reduced over a long period of time, and chain wear can be further prevented.

  According to the oilless chain of the present invention according to claim 4, in addition to the effect of the oilless chain according to claim 2, the inner width Do of the outer link, the outer width Di of the inner link, and the ring holding groove of the outer plate The depth Dho of the inner plate, the depth Dhi of the ring retaining groove of the inner plate, the length Ds of the seal ring in the chain width direction, and the protrusion amount Db of the bush end from the outer surface of the inner plate are Do−Di + Dho−Db <Ds <. By forming each so as to satisfy Dho + Dhi + Db and Do−Di + Dhi−Db <Ds <Dho + Dhi + Db, when the inner link is skewed, swung or unevenly distributed in the chain width direction with respect to the outer link Even so, the end face of the bush and the inner surface of the outer plate are in contact with each other, and the seal ring is in contact with the bottom surface of the ring holding groove of the inner plate. Since it prevents sliding contact with the bottom surface of the ring holding groove while being pressed in the chain width direction with the bottom surface of the ring holding groove of the plate, wear damage of the seal ring can be prevented, and the seal ring Prevents the lubricant from leaking to the outside by preventing the inner plate and the outer plate from detaching from the ring holding groove, so that the sliding wear between the outer peripheral surface of the connecting pin and the inner peripheral surface of the bushing is prolonged. This can further reduce chain wear elongation.

  The present invention provides an inner link formed by press-fitting both ends of a pair of front and rear bushes into bush press-fitting holes of a pair of left and right inner plates, and both ends of a pair of front and rear connecting pins penetrating into the bush. The outer links formed by press-fitting and fitting into the pin press-fitting holes of the outer plate are alternately connected in the longitudinal direction of the chain, and the lubricant is sealed between the inner peripheral surface of the bush and the outer peripheral surface of the connecting pin. In the oil supply chain, a seal ring for sealing a gap between the inner plate and the outer plate is free to play in a ring holding groove concentric with the connecting pin formed in the outer surface of the inner plate and the inner surface of the outer plate, respectively. Fits and holds to prevent leakage of lubricating oil and intrusion of external dust when the chain is in operation, while suppressing sliding wear between the outer peripheral surface of the connecting pin and the inner peripheral surface of the bush, If the chain manufacturing burden can be remarkably reduced without surface finishing on the outer surface of the inner plate and the inner surface of the outer plate, the specific embodiment is It doesn't matter what it is.

  For example, the oil-free chain of the present invention may be a roller chain or a bush chain.

  In addition, the specific material of the seal ring incorporated in the oil-free chain of the present invention may be any of plastic resin, stainless steel material, iron, aluminum, etc. as long as it has wear resistance and oil resistance. In particular, when a plastic resin is used, it is more preferable because it exhibits excellent self-lubricating properties and oil resistance and suppresses deterioration of the sealing effect due to sliding contact wear with the inner and outer plates.

  The specific shape of the seal ring incorporated into the oil-free chain of the present invention may be any of a cylindrical ring, a ring with an H-shaped cross section, etc. One arranged so as to loosely fit in the ring holding groove of the inner plate and the ring holding groove of the outer plate, and connected so as to loosely fit in the two ring holding grooves of the inner plate and the two ring holding grooves of the outer plate. Any of the two arranged concentrically around the pin may be used.

  The number of the ring retaining grooves of the oil-free chain of the present invention is one that is concentrically recessed with the connecting pin on the outer surface of the inner plate and the inner surface of the outer plate, the outer surface of the inner plate and the outer surface of the inner plate. Any of the two concentrically recessed with the inner surface of the plate as the center, may be used.

 Also, if an oil sump groove for supplying lubricating oil is engraved between the inner peripheral surface of the bush and the outer peripheral surface of the connecting pin, enclose more lubricating oil. Since the lubricating oil can be continuously supplied between the connecting pin and the bushing, sliding wear on the outer peripheral surface of the connecting pin and the inner peripheral surface of the bushing can be reduced over a long period of time, and the wear elongation of the chain can be further increased. Since it can prevent, it is more preferable.

When the inner surface of the outer plate and the outer surface of the inner plate are provided with a labyrinth structure-forming rough surface that is close to each other, there is no oil between the inner surface of the outer plate and the outer surface of the inner plate. Since the pool labyrinth structure is formed, the sealing effect of the lubricating oil injected between the connecting pin and the bushing can be further improved, and the lubricating oil injected between the bushing and the connecting pin is externally exposed. It is more preferable because it can prevent leakage and prevent dust from entering from the outside.
In addition, the labyrinth structure formation rough surface here means a rough surface that can form the labyrinth structure for oil sump.

Hereinafter, the oil-free chain 100 which is 1st Example of this invention is demonstrated based on drawing.
Here, FIG. 1 is an overall schematic view in which a part of the oil-free chain according to the first embodiment of the present invention is cut out, and FIG. 2 is a perspective view showing a connected state of the oil-free chain shown in FIG. 3 is a cross-sectional view of the oil-free chain shown in FIG. 1, FIG. 4 is an assembly dimension diagram of the oil-free chain shown in FIG. 1, and FIG. It is a dimension figure showing the state where it deviated in the width direction.

First, as shown in FIG. 1 and FIG. 3, the oil-free chain 100 according to the first embodiment of the present invention has rollers in the bushing press-fit holes 111 and 111 of the inner plates 110 and 110 that are spaced apart from each other on the left and right sides. 120 and 120 are inserted into and fixed to the front and rear bushes 130 and 130 at both ends thereof, and the inner link 140 is inserted into and fixed to the pin press-fitting holes 151 and 151 of the outer plates 150 and 150 spaced apart from each other. A pair of connecting pins 160, 160 is provided with an outer link 170 in which both end portions are fitted and fixed.
Further, the inner link 140 and the outer link 170 are connected by loosely fitting the connecting pin 160 to the bush 130. A lubricating oil is sealed between the bush 130 and the connecting pin 160.

Therefore, specific forms of the seal ring 180, the outer plate 150, and the inner plate 110, which are the most characteristic features of the oil-free chain 100 of this embodiment, will be described in detail with reference to FIGS.
First, as shown in FIGS. 1 to 3, a ring holding groove 154 concentric with the connecting pin 160 is formed in the inner side surface 153 of the outer plate 150.
As shown in FIGS. 1 to 3, a ring holding groove 113 concentric with the connecting pin 160 is formed in the outer surface 112 of the inner plate 110.
The diameter of the ring holding groove 113 of the inner plate 110 is the same as the diameter of the ring holding groove 154 of the outer plate 150.

  As shown in FIGS. 1 and 3, the ring holding groove 113 of the inner plate 110 and the ring holding groove 154 of the outer plate 150 are cylinders made of plastic resin for sealing the gap between the inner plate 110 and the outer plate 150. A ring-shaped seal ring 180 is loosely fitted.

  Further, as shown in FIG. 4, the oil-free chain 100 includes an inner width Do of the outer link 170, an outer width Di of the inner link 140, a depth Dho of the ring holding groove 154 of the outer plate 150, and a ring holding of the inner plate 110. The depth Dhi of the groove 113 and the length Ds of the seal ring 180 in the chain width direction are formed so as to satisfy Do-Di + Dho <Ds <Dho + Dhi and Do-Di + Dhi <Ds <Dho + Dhi, respectively.

In the oil-free chain 100 of this embodiment obtained in this way, the seal ring 180 that seals the gap between the inner plate 110 and the outer plate 150 has the outer surface 112 of the inner plate 110 and the inner surface 153 of the outer plate 150. The ring holding grooves 113 and 154 concentrically with the connecting pin 160 are loosely held.
Therefore, the labyrinth structure L ₁ is formed such that the leakage path of the lubricating oil generated between the ring holding groove 113 of the inner plate 110, the ring holding groove 154 of the outer plate 150, and the seal ring 180 is bent in a complicated manner. In addition, the leakage of lubricating oil due to centrifugal force, etc. caused by the circular running during chain operation can be suppressed and the intrusion of external dust can be suppressed to prevent chain wear and elongation for a long time. The lubricating oil is stored in the annular oil reservoir region S ₁ created between the outer peripheral surface 161 of 160, the inner surface 153 of the outer plate 150, the outer surface 112 of the inner plate 110, and the inner peripheral surface of the seal ring 180. since inhibiting the momentum of the lubricating oil to be Daso bleeding annular oil reservoir region S _1, it is possible to further improve the sealing effect.

The seal ring 180 is loosely held by the ring holding groove 113 of the inner plate 110 and the ring holding groove 154 of the outer plate 150.
Therefore, when the chain is manufactured, the seal ring 180 may be loosely fitted between the ring holding groove 113 of the inner plate 110 and the ring holding groove 154 of the outer plate 150, so that the seal member is pressed between the bush and the outer link plate. Compared to a conventional seal chain arranged in a state, disassembly and assembly work such as chain cut-off can be easily achieved, and it can be smoothly bent and run around when the chain is in operation.
In the conventional seal chain, the surface of the outer surface of the inner link plate and the inner surface of the outer link plate reduce the surface roughness in order to prevent sliding contact wear of the seal member and maintain the sealing performance of the lubricating oil. Although it is necessary to perform finishing, the oil-free chain 100 of the present invention does not require surface finishing as in the conventional case, and can reduce the manufacturing burden of the chain.

Further, the inner width Do of the outer link 170, the outer width Di of the inner link 140, the depth Dho of the ring holding groove 154 of the outer plate 150, the depth Dhi of the ring holding groove 113 of the inner plate 110, and the chain width of the seal ring 180 The direction length Ds is formed so as to satisfy Do-Di + Dho <Ds <Dho + Dhi and Do-Di + Dhi <Ds <Dho + Dhi, respectively.
Therefore, as shown in FIG. 5, even when the inner link 140 is skewed, swung, or unevenly distributed in the chain width direction with respect to the outer link 170 when the chain is in operation, the outer surface 112 and the outer surface 112 of the inner plate 110 With the inner surface 153 of the plate 150 in contact with each other, the seal ring 180 is sandwiched between the bottom surface of the ring holding groove 113 of the inner plate 110 and the bottom surface of the ring holding groove 154 of the outer plate 150 in the chain width direction. Since the sliding contact with the bottom surfaces of the ring holding grooves 113 and 154 is prevented, the wear damage of the seal ring 180 can be prevented, and the seal ring 180 is connected to the ring holding groove 113 of the inner plate 110 and the ring of the outer plate 150. Since it prevents that it remove | deviates from the holding groove 154 and prevents lubricating oil from leaking outside, the connecting pin 1 0 sliding wear of the inner peripheral surface 131 of the outer peripheral surface 161 and the bushing 130 can be reduced over a long period of time, such as the wear elongation of the chain can be further prevented more, the effect is significant.

Next, an oil-free chain 200 according to a second embodiment of the present invention will be described with reference to FIGS.
Here, FIG. 6 is an overall schematic view in which a part of the oil-free chain according to the second embodiment of the present invention is cut out, and FIG. 7 is a perspective view showing a connected state of the oil-free chain shown in FIG. 8 is a cross-sectional view of the oil-free chain shown in FIG. 6, FIG. 9 is an assembly dimension diagram of the oil-free chain shown in FIG. 6, and FIG. 10 shows that the oil-free chain of FIG. It is a dimension figure showing the state where it deviated in the width direction.

First, as shown in FIGS. 6 and 8, the oil-free chain 200 according to the second embodiment of the present invention has rollers in the bushing press-fitting holes 211 and 211 of the inner plates 210 and 210 that are spaced apart from each other on the left and right sides. The front and rear bushes 230 and 230 on which the front and rear 220 and 220 are loosely fitted are inserted into and fixed to the inner link 240, and the left and right pair of outer plates 250 and 250 are spaced apart from the pin press-fitting holes 251 and 251. And a pair of connecting pins 260 and an outer link 270 in which both end portions are fitted and fixed.
Further, the inner link 240 and the outer link 270 are connected by loosely fitting the connecting pin 260 to the bush 230. A lubricating oil is sealed between the bush 230 and the connecting pin 260.

Therefore, specific forms of the seal ring 280, the outer plate 250, the inner plate 210, and the bush 230, which are the most characteristic features of the oil-free chain 200 of this embodiment, will be described in detail with reference to FIGS.
First, as shown in FIGS. 6 and 8, a ring holding groove 254 concentric with the connecting pin 260 is formed in the inner surface 253 of the outer plate 250.
Further, as shown in FIGS. 6 and 8, a ring holding groove 254 concentric with the connecting pin 260 is formed in the outer surface 212 of the inner plate 210.
The diameter of the ring holding groove 213 of the inner plate 210 is the same as the diameter of the ring holding groove 254 of the outer plate 250.
Further, the end portion 232 of the bush 230 partially protrudes from the outer surface 212 of the inner plate 210.

  As shown in FIGS. 6 and 8, the ring holding groove 213 of the inner plate 210 and the ring holding groove 254 of the outer plate 250 are cylinders made of plastic resin for sealing the gap between the inner plate 210 and the outer plate 250. A ring-shaped seal ring 280 is loosely fitted.

  Further, as shown in FIG. 9, the oil-free chain 200 includes an inner width Do of the outer link 270, an outer width Di of the inner link 240, a depth Dho of the ring holding groove 254 of the outer plate 250, and a ring holding of the inner plate 210. The depth Dhi of the groove 213, the length Ds of the seal ring 280 in the chain width direction, and the protruding amount Db of the end 232 of the bushing 230 from the outer surface 212 of the inner plate 210 are Do−Di + Dho−Db <Ds <Dho + Dhi + Db and They are formed so as to satisfy Do-Di + Dhi-Db <Ds <Dho + Dhi + Db.

In the oilless chain 200 of this embodiment obtained in this way, the seal ring 280 that seals the gap between the inner plate 210 and the outer plate 250 has the outer surface 212 of the inner plate 210 and the inner surface 253 of the outer plate 250. The ring holding grooves 213 and 254 concentric with the connecting pin 260 are loosely held.
Therefore, a ring holding groove 213 and the ring holding groove 254 and the labyrinth structure shape leakage path of the resulting lubricating oil has complicatedly bent between the seal ring 280 L ₂ of the outer plate 250 of such inner plate 210 Thus, it is possible to prevent the lubricating oil from leaking due to the centrifugal force generated by the circular running during the operation of the chain and to suppress the intrusion of external dust, thereby preventing the chain from being worn and extended for a long time. The lubricating oil is stored in the annular oil reservoir region S ₂ created between the outer peripheral surface 233 of the outer plate 250, the inner surface 253 of the outer plate 250, the outer surface 212 of the inner plate 210, and the inner peripheral surface of the seal ring 280. since inhibiting the momentum of the lubricant oil sump region S ₂ is going Daso bleeding, it is possible to further improve the sealing effect.

Further, the seal ring 280 is loosely held by the ring holding groove 213 of the inner plate 210 and the ring holding groove 254 of the outer plate 250.
Therefore, when the chain is manufactured, the seal ring 280 may be loosely fitted between the ring holding groove 213 of the inner plate 210 and the ring holding groove 254 of the outer plate 250, so that the seal member is pressed between the bush and the outer link plate. Compared to a conventional seal chain arranged in a state, disassembly and assembly work such as chain cut-off can be easily achieved, and it can be smoothly bent and run around when the chain is in operation.
In the conventional seal chain, the surface of the outer surface of the inner link plate and the inner surface of the outer link plate reduce the surface roughness in order to prevent sliding contact wear of the seal member and maintain the sealing performance of the lubricating oil. Although it is necessary to perform finishing, the oil-free chain 200 of the present invention does not require surface finishing as in the conventional case, and can reduce the manufacturing burden of the chain.

  Further, since the end 232 of the bush 230 partially protrudes from the outer surface 212 of the inner plate 210, the inner link 240 is skewed, swung, or unevenly distributed in the chain width direction with respect to the outer link 270 when the chain is operating. In this case, the end surface of the bushing 230 having a small sliding area and the inner side surface 253 of the outer plate 250 come into contact with each other, and the outer side surface 212 of the inner plate 210 having a larger sliding area and the inner side surface 253 of the outer plate 250 Can completely prevent the chain from bending and sliding over a long period of time, and compared with the case where the outer surface 212 of the inner plate 210 and the inner surface 253 of the outer plate 250 are in contact with each other. As a result, the gap between the bottom surface of the ring holding groove 213 of the inner plate 210 and the bottom surface of the ring holding groove 254 of the outer plate 250 is widened. The ring ring 280 is in sliding contact with the bottom surfaces of the ring holding grooves 213 and 254 while being pressed between the bottom surface of the ring holding groove 213 of the inner plate 210 and the bottom surface of the ring holding groove 254 of the outer plate 250 in the chain width direction. Excessive wear damage of the seal ring 280 that occurs in some cases can be prevented.

The inner width Do of the outer link 270, the outer width Di of the inner link 240, the depth Dho of the ring holding groove 254 of the outer plate 250, the depth Dhi of the ring holding groove 213 of the inner plate 210, and the chain width of the seal ring 280 The length Ds in the direction and the protrusion amount Db of the end 232 of the bushing 230 from the outer surface 212 of the inner plate 210 satisfy Do-Di + Dho-Db <Ds <Dho + Dhi + Db and Do-Di + Dhi-Db <Ds <Dho + Dhi + Db. Are formed respectively.
Therefore, even when the inner link 240 is skewed, swung, or unevenly distributed in the chain width direction with respect to the outer link 270 when the chain is operating, the end surface of the bush 230 and the inner surface 253 of the outer plate 250 are in contact with each other. The bottom surfaces of the ring holding grooves 213 and 254 are sealed in the chain width direction between the bottom surface of the ring holding groove 213 of the inner plate 210 and the bottom surface of the ring holding groove 254 of the outer plate 250. Since the sliding contact is prevented, the wear damage of the seal ring 280 can be prevented, and the seal ring 280 can be prevented from coming off from the ring holding groove 213 of the inner plate 210 and the ring holding groove 254 of the outer plate 250. Since the lubricating oil is prevented from leaking to the outside, the outer peripheral surface 261 of the connecting pin 260 and the bush 23 The sliding wear of the inner circumferential surface 231 can be reduced over a long and wear elongation of the chain can be further prevented more, the effect is significant.

Next, an oil-free chain 300 according to a third embodiment of the present invention will be described with reference to FIG.
Here, the configurations of the oil-free chain 300 according to the third embodiment of the present invention other than the seal rings 380a and 380b, the ring holding grooves 354a and 354b of the outer plate 350, and the ring holding grooves 313a and 313b of the inner plate 310 are the same as described above. This is exactly the same as the oil-free chain 200 of the second embodiment, so that the description of the oil-free chain 200 of the second embodiment and the codes in the 200 series shown in FIGS. 6 to 10 are replaced with the codes in the 300 series. Accordingly, the description of the configuration other than the seal rings 380a and 380b, the ring holding grooves 354a and 354b of the outer plate 350, and the ring holding grooves 313a and 313b of the inner plate 310 is omitted.

Therefore, the seal rings 380a and 380b, the ring holding grooves 354a and 354b of the outer plate 350, and the ring holding grooves 313a and 313b of the inner plate 310, which are the most characteristic features of the oil-free chain 300 of the third embodiment of the present invention, are described in detail. The form will be described in detail with reference to FIG.
That is, as shown in FIG. 11, the inner surface 353 of the outer plate 350 is provided with a pair of ring holding grooves 354 a and 354 b that are concentrically arranged around the connecting pin 360.
As shown in FIG. 11, the outer surface 312 of the inner plate 310 is provided with a pair of ring holding grooves 313 a and 313 b that are concentrically arranged around the connecting pin 360.
The diameter of the ring holding groove 313a of the inner plate 310 is the same as the diameter of the ring holding groove 354a of the outer plate 350, and the diameter of the ring holding groove 313b of the inner plate 310 is The diameter of the ring holding groove 354b of the outer plate 350 is the same.
Further, the end portion 332 of the bush 330 partially protrudes from the outer surface 312 of the inner plate 310.

  As shown in FIG. 11, the ring holding grooves 313a and 313b of the inner plate 310 and the ring holding grooves 354a and 354b of the outer plate 350 are plastic resin for sealing the gap between the inner plate 310 and the outer plate 350. A pair of cylindrical seal rings 380a and 380b are loosely fitted.

  The oil-free chain 300 includes an inner width Do of the outer link 370, an outer width Di of the inner link 340, a depth Dho of the ring holding grooves 354a and 354b of the outer plate 350, and ring holding grooves 313a and 313b of the inner plate 310. The depth Dhi, the length Ds in the chain width direction of the seal rings 380a and 380b, and the protrusion amount Db of the end portion 332 of the bush 330 from the outer surface 312 of the inner plate 310 are Do−Di + Dho−Db <Ds <Dho + Dhi + Db and Do. Each is formed so as to satisfy -Di + Dhi-Db <Ds <Dho + Dhi + Db.

The oil-free chain 300 of this embodiment obtained in this way has a pair of seal rings 380a and 380b that seal the gap between the inner plate 310 and the outer plate 350, and the outer surface 312 of the inner plate 310 and the outer plate 350. The ring holding grooves 313 a, 313 b, 354 a, and 354 b that are respectively provided concentrically with the connecting pin 360 as a center are provided to be loosely fitted and held in the inner side surface 353.
Accordingly, the leakage path of the lubricating oil generated between the ring holding grooves 313a and 313b of the inner plate 310, the ring holding grooves 354a and 354b of the outer plate 350, and the seal rings 380a and 380b is bent more complicatedly. of a labyrinth structure L _3, suppresses leakage of lubricating oil due to the centrifugal force or the like caused by orbiting travel during operation of the chain to suppress intrusion of external dust, to prevent wear elongation of the chain over time can be, also, the outer peripheral surface 333 and the annular oil reservoir area _{S 3} which is created between the outer surface 312 and the inner circumferential surface of the seal ring 380a of the inner surface 353 and an inner plate 310 of the outer plate 350 of the bushing _330, The inner surface 353 of the outer plate 350, the outer surface 312 of the inner plate 310, the outer peripheral surface of the seal ring 380a, and the shim _'Lubricant accumulated in the, these annular oil reservoir area S _3, S _3' created by an annular oil reservoir space S ₃ between the inner peripheral surface of the seal ring 380b momentum of the lubricating oil is going Daso bleeding Therefore, the sealing effect can be further improved.

Further, the seal rings 380 a and 380 b are loosely held by the ring holding grooves 313 a and 313 b of the inner plate 310 and the ring holding grooves 354 a and 354 b of the outer plate 350.
Therefore, when the chain is manufactured, the seal rings 380a and 380b may be loosely fitted between the ring holding grooves 313a and 313b of the inner plate 310 and the ring holding grooves 354a and 354b of the outer plate 350. Compared to a conventional seal chain in which a seal member is disposed in a pressed state, disassembly and assembly work such as chain cut-off can be easily achieved, and the chain can be smoothly bent and run around during chain operation.
In the conventional seal chain, the surface of the outer surface of the inner link plate and the inner surface of the outer link plate reduce the surface roughness in order to prevent sliding contact wear of the seal member and maintain the sealing performance of the lubricating oil. Although it is necessary to perform finishing, the oil-free chain 300 of the present invention does not require surface finishing as in the prior art, and can reduce the manufacturing burden of the chain.

  Further, since the end portion 332 of the bush 330 partially protrudes from the outer surface 312 of the inner plate 310, the inner link 340 skews, swings, or is unevenly distributed in the chain width direction with respect to the outer link 370 when the chain is operating. In this case, the end surface of the bush 330 having a small sliding area and the inner surface 353 of the outer plate 350 are in contact with each other, and the outer surface 312 of the inner plate 310 having a larger sliding area and the inner surface 353 of the outer plate 350 are Can completely prevent the chain from bending and sliding over a long period of time, and compared with the case where the outer surface 312 of the inner plate 310 and the inner surface 353 of the outer plate 350 are in contact with each other. The bottom surfaces of the ring holding grooves 313a and 313b of the inner plate 310 and the bottom surfaces of the ring holding grooves 354a and 354b of the outer plate 350 Since the intervals in the chain width direction are widened, the seal rings 380a and 380b are sandwiched between the bottom surfaces of the ring holding grooves 313a and 313b of the inner plate 310 and the bottom surfaces of the ring holding grooves 354a and 354b of the outer plate 350 in the chain width direction. In this state, it is possible to prevent excessive wear damage of the seal rings 380a and 380b which occurs when the ring holding grooves 313a, 313b, 354a and 354b are brought into sliding contact with the bottom surfaces.

The inner width Do of the outer link 370, the outer width Di of the inner link 340, the depth Dho of the ring holding grooves 354a and 354b of the outer plate 350, the depth Dhi of the ring holding grooves 313a and 313b of the inner plate 310, and the seal ring The length Ds in the chain width direction of 380a and 380b and the protrusion amount Db of the end portion 332 of the bush 330 from the outer surface 312 of the inner plate 310 are Do−Di + Dho−Db <Ds <Dho + Dhi + Db and Do−Di + Dhi−Db <Ds. Each is formed to satisfy <Dho + Dhi + Db.
Therefore, even when the inner link 340 is skewed, swung, or unevenly distributed in the chain width direction with respect to the outer link 370 when the chain is in operation, the end surface of the bush 330 and the inner surface 353 of the outer plate 350 are in contact with each other. The ring retaining grooves 380a and 380b are sandwiched between the bottom surfaces of the ring retaining grooves 313a and 313b of the inner plate 310 and the bottom surfaces of the ring retaining grooves 354a and 354b of the outer plate 350 in the chain width direction. Since the sliding contact with the bottom surfaces of 313a, 313b, 354a, and 354b is prevented, the wear damage of the seal rings 380a and 380b can be prevented, and the seal rings 380a and 380b are also provided in the ring holding grooves 313a and 313b of the inner plate 310. And ring holding grooves 354a and 354b of the outer plate 350 Since the lubricant is prevented from coming off and the lubricating oil is prevented from leaking to the outside, the sliding wear of the outer peripheral surface 361 of the connecting pin 360 and the inner peripheral surface 331 of the bush 330 can be reduced over a long period of time. The effect is enormous, as it is possible to further prevent wear elongation.

Next, an oil-free chain 400 according to a fourth embodiment of the present invention will be described with reference to FIG.
Here, the configurations of the oil-free chain 400 according to the fourth embodiment of the present invention other than the seal ring 480, the ring holding grooves 454a and 454b of the outer plate 450, and the ring holding grooves 413a and 413b of the inner plate 410 are the same as those described above. Since it is exactly the same as the oil-free chain 200 of the second embodiment, the specification relating to the oil-free chain 200 of the second embodiment and the codes in the 200 series shown in FIGS. 6 to 10 are replaced with the codes in the 400 series. Description of the configuration other than the seal ring 480, the ring holding grooves 454a and 454b of the outer plate 450, and the ring holding grooves 413a and 413b of the inner plate 410 is omitted.

Therefore, specific forms of the seal ring 480, the ring holding grooves 454a and 454b of the outer plate 450, and the ring holding grooves 413a and 413b of the inner plate 410, which are the most characteristic features of the oil-free chain 400 of the fourth embodiment of the present invention. This will be described in detail with reference to FIG.
That is, as shown in FIG. 12, a pair of ring holding grooves 454 a and 454 b that are concentrically arranged around the connection pin 460 are recessed in the inner surface 453 of the outer plate 450.
As shown in FIG. 12, the outer surface 412 of the inner plate 410 is provided with a pair of ring holding grooves 413 a and 413 b that are concentrically arranged around the connecting pin 460.
The diameter of the ring holding groove 413a of the inner plate 410 is the same as the diameter of the ring holding groove 454a of the outer plate 450, and the diameter of the ring holding groove 413b of the inner plate 410 is The diameter of the ring holding groove 454b of the outer plate 450 is the same.
Further, the end portion 432 of the bush 430 partially protrudes from the outer surface 412 of the inner plate 410.

Then, as shown in FIG. 12, the gap between the inner plate 410 and the outer plate 450 is sealed between the ring holding grooves 413a and 413b of the inner plate 410 and the ring holding grooves 454a and 454b of the outer plate 450. A seal ring 480 made of a plastic resin is loosely fitted.
This seal ring 480 is a so-called cross-section provided with flange portions 481 and 482 loosely fitted in the ring holding grooves 413a and 413b of the inner plate 410 and the ring holding grooves 454a and 454b of the outer plate 450 on the outer peripheral edge and the inner peripheral edge, respectively. It is an H-shaped ring.

In the oilless chain 400 of this embodiment obtained in this way, a pair of seal rings 480 that seal the gap between the inner plate 410 and the outer plate 450 are provided on the outer surface 412 of the inner plate 410 and the inner surface of the outer plate 450. Recessed on the side surfaces 453 and loosely held in ring holding grooves 413 a, 413 b, 454 a, and 454 b disposed concentrically around the connecting pin 460.
Therefore, the labyrinth having a shape in which the leakage path of the lubricating oil generated between the ring holding grooves 413a and 413b of the inner plate 410, the ring holding grooves 454a and 454b of the outer plate 450, and the seal ring 480 is bent more complicatedly. has a structure L _4, by suppressing the penetration of external dust suppresses leakage of lubricating oil due to the centrifugal force or the like caused by orbiting travel during operation of the chain, the wear elongation of the chain can be prevented for a long time Further, the lubricating oil is applied to the annular oil reservoir region S ₄ created between the outer peripheral surface 433 of the bush 430, the inner surface 453 of the outer plate 450, the outer surface 412 of the inner plate 410, and the inner peripheral surface of the seal ring 480. accumulated, since suppressing the momentum of the lubricating oil to be Daso bleeding these annular oil reservoir area S _4, further improve the sealing effect Door can be.

Further, the seal ring 480 is loosely held by the ring holding grooves 413 a and 413 b of the inner plate 410 and the ring holding grooves 454 a and 454 b of the outer plate 450.
Therefore, when the chain is manufactured, the seal ring 480 may be loosely fitted between the ring holding grooves 413a and 413b of the inner plate 410 and the ring holding grooves 454a and 454b of the outer plate 450. Compared to a conventional seal chain in which the seal member is arranged in a pressed state, disassembly and assembly work such as chain cut-off can be easily achieved, and the chain can be smoothly bent and run around when the chain is in operation.
In the conventional seal chain, the surface of the outer surface of the inner link plate and the inner surface of the outer link plate reduce the surface roughness in order to prevent sliding contact wear of the seal member and maintain the sealing performance of the lubricating oil. Although it has been necessary to perform finishing, the oil-free chain 400 of the present invention does not require surface finishing as in the prior art, and can reduce the manufacturing burden of the chain.

  Since the end 432 of the bush 430 partially protrudes from the outer surface 412 of the inner plate 410, the inner link 440 skews, swings, or is unevenly distributed in the chain width direction with respect to the outer link 470 when the chain is operating. In this case, the end surface of the bush 430 having a small sliding area and the inner surface 453 of the outer plate 450 are in contact with each other, and the outer surface 412 of the inner plate 410 having a larger sliding area and the inner surface 453 of the outer plate 450 are Can completely prevent the chain from bending and sliding over a long period of time, and compared with the case where the outer surface 412 of the inner plate 410 and the inner surface 453 of the outer plate 450 are in contact with each other. The bottom surfaces of the ring holding grooves 413a and 413b of the inner plate 410 and the bottom surfaces of the ring holding grooves 454a and 454b of the outer plate 450 Therefore, the seal ring 480 is pressed between the bottom surfaces of the ring holding grooves 413a and 413b of the inner plate 410 and the bottom surfaces of the ring holding grooves 454a and 454b of the outer plate 450 in the chain width direction. The effect is enormous, for example, it is possible to prevent excessive wear damage of the seal ring 480 that occurs when sliding contact is made with the bottom surfaces of the holding grooves 413a, 413b, 454a, 454b.

BRIEF DESCRIPTION OF THE DRAWINGS The whole schematic diagram which notched a part of oilless chain which is 1st Example of this invention. The perspective view which shows the connection state of the oil-free chain shown in FIG. Sectional drawing of the oil-free chain shown in FIG. The assembly dimension figure of the oil-free chain shown in FIG. The dimension drawing which shows the state which the oil-free chain of FIG. 1 offset in the chain width direction. The whole schematic diagram which notched a part of oilless chain which is 2nd Example of this invention. The perspective view which shows the connection state of the oil-free chain shown in FIG. Sectional drawing of the oil-free chain shown in FIG. The assembly dimension figure of the oil-free chain shown in FIG. The dimension drawing which shows the state which the oil-free chain of FIG. 6 shifted in the chain width direction. Sectional drawing of the oil-free chain which is 3rd Example of this invention. Sectional drawing of the oil-free chain which is 4th Example of this invention.

Explanation of symbols

100, 200, 300, 400 ... Oil-free chain 110, 210, 310, 410 ... Inner plate 111, 211, 311, 411 ... Bush press-fit hole 112, 212, 312, 412 ... Inner plate Outer side surface 113, 213, 313a, 313b, 413a, 413b ... Ring holding groove 120, 220, 320, 420 ... Roller 130, 230, 330, 430 ... Bush 131, 231, 331, 431 ... Bush inner peripheral surfaces 232, 332, 432 ... Bush ends 233, 333, 433 ... Bush outer peripheral surfaces 140, 240, 340, 440 ... Inner links 150, 250, 350, 450・ Outer plates 151, 251, 351, 451 ... Pin press-fitting holes 153, 2 of outer plates 3, 353, 453 ... Inner side surface of outer plate 154, 254, 354a, 354b, 454a, 454b ... Ring retaining groove 160, 260, 360, 460 ... Connecting pin 161, 261, 361, 461 ... outer peripheral surface 170,270,370,470 ... outside link 180,280,380a of the connecting pins, 380b, 480 ... seal ring _{L 1, L 2, L 3} , L 4 ··· labyrinth structure S ₁ , S ₂ , S ₃ , S ₃ ′, S ₄ ... Annular oil reservoir region Dho... Depth of ring holding groove of outer plate Dhi... Depth of ring holding groove of inner plate Db.・ Projection amount of bush end from outer surface of inner plate Do ・ ・ ・ Inner width of outer link Di ・ ・ ・ Outer width of inner link

Claims (4)

Pins of a pair of left and right outer plates are connected to inner links formed by press-fitting both ends of a pair of front and rear bushes into bush press-fitting holes of a pair of left and right inner plates and a pair of front and rear connection pins penetrating into the bushes. In an oil-free chain in which outer links formed by press-fitting into press-fitting holes are alternately connected in the longitudinal direction of the chain, and lubricating oil is sealed between the inner peripheral surface of the bush and the outer peripheral surface of the connecting pin,
A seal ring for sealing a gap between the inner plate and the outer plate is loosely fitted and held in a ring holding groove concentrically with the connecting pin formed on the outer surface of the inner plate and the inner surface of the outer plate. An oil-free chain characterized by   The oil-free chain according to claim 1, wherein an end portion of the bush partially protrudes from an outer surface of the inner plate. The inner width Do of the outer link, the outer width Di of the inner link, the depth Dho of the ring holding groove of the outer plate, the depth Dhi of the ring holding groove of the inner plate, and the length Ds of the seal ring in the chain width direction,
Do-Di + Dho <Ds <Dho + Dhi
as well as,
Do-Di + Dhi <Ds <Dho + Dhi
The oil-free chain according to claim 1, wherein each is formed so as to satisfy The inner width Do of the outer link, the outer width Di of the inner link, the depth Dho of the ring holding groove of the outer plate, the depth Dhi of the ring holding groove of the inner plate, the length Ds of the seal ring in the chain width direction and the bushing end The amount of protrusion Db from the outer surface of the inner plate is
Do-Di + Dho-Db <Ds <Dho + Dhi + Db
as well as,
Do-Di + Dhi-Db <Ds <Dho + Dhi + Db
The oil-free chain according to claim 2, wherein each of the oil-free chains is formed so as to satisfy the above.

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