JP2008116014A - Seal chain - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a seal chain which prevents deterioration of seal performance, shortening of service life, and reduction in strength of a bush. <P>SOLUTION: An outer link 4 comprises outer link plates 2 and a pin 3, both ends of which are fitted in and secured to pin holes 2a of the outer link plates 2. An inner link 8 comprises inner link plates 5 and a bush 7, both ends 7a of which are fitted in and secured to bush holes 5a of the inner link plates 5. A roller 6 is loosely fitted on the bush 7. The outer link 4 and the inner link 8 are connected to each other by loosely fitting the pin 3 in the bush 7. A seal mechanism 9 is arranged between each outer link plate 2 and each inner link plate 5. The seal mechanism 9 comprises an elastic ring 10 and a seal ring 11. The seal ring 11 has an annular inclined inner circumference surface 11a and an annular inclined outer circumference surface 11b. The elastic ring 10 is held between an annular inclined surface 7b formed at each end 7a of the bush 7 protruded from the inner link plate 5, and the annular inclined inner circumference surface 11a of the seal ring 11. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a seal chain used for conveyance (conveyor), power transmission (transmission), etc., and in particular, lubricating oil (grease, etc.) sealed between the outer peripheral surface of a pin and the inner peripheral surface of a bush leaks to the outside. A seal mechanism between the inner link plate and the opposite surface of the outer link plate to prevent foreign matter from entering between the outer peripheral surface of the pin and the inner peripheral surface of the bush. Relates to a seal chain.

  Seal chains are generally used as high-speed transmission chains, conveyor chains and transmission chains in dusty atmospheres, conveyor chains and transmission chains with heavy loads, and a seal mechanism between the inner link plate and the outer link plate of the chain. To prevent scattering of the lubricating oil sealed between the pin and the bush and to prevent foreign matter from entering from the outside. Various seal mechanisms have been proposed.

FIG. 6 shows a partially enlarged example of a conventional seal chain.
The seal mechanism 20 in the conventional seal chain includes a seal ring 23 made of nitrided steel or stainless steel provided between the end of the bush 21 and the inner side of the outer link plate 22, and the seal ring 23 and the end of the bush 21. And an elastic ring 24 provided therebetween. The sliding surface 23 c of the seal ring 23 is pressed against the inner side of the outer link plate 22 by the elastic ring 24. The elastic ring 24 is held by the holding groove 21a of the bush 21 and the holding groove 23a of the seal ring 23, and is sandwiched between the vertical surface 21b of the bush 21 and the vertical surface 23b of the seal ring 23 (Patent Document 1). reference.).
Japanese Utility Model Publication No. 5-1717

In the above-described conventional seal chain, the inner ring plate 25 may be shifted to either the left or right in the traveling direction during straight running or bending running, so that the elastic ring 24 has the bush 21. Compressed by the vertical surface 21b and the vertical surface 23b of the seal ring 23, the elastic ring 24 is deteriorated or permanently deformed. As a result, there is a problem in that a reduction in sealing performance and a reduction in life are promoted.
Further, since the holding groove 21a of the bush 21 that holds the elastic ring 24 is formed in parallel with the end face of the bush 21, the thickness of the end 21d of the bush 21 in the radial direction is thin, and the strength of the bush 21 is low. There was a problem.
Further, the holding groove 21a of the bush 21 is formed on the inner side in the chain width direction with respect to the facing surface 25a of the inner link plate 25, and the gap between the inner link plate 25 and the outer link plate 22 is small. Since foreign matter once entering between the outer link plate 22 is difficult to be discharged, the end 21e of the bush 21, the elastic ring 24, the seal ring 23, the inner peripheral surface 25b of the bush hole of the inner link plate 25, and the outer link plate 22 As a result, the elastic ring 24, the seal ring 23, etc. are damaged, and the foreign material is liable to enter between the pin 26 and the bush 21. there were.

  Therefore, the present invention solves the conventional problems as described above, that is, the object of the present invention is to prevent foreign matter once entering between the inner link plate and the outer link plate from being connected to the inner link plate. It is easy to be discharged from between the outer link plate, and when the inner link plate approaches the outer link plate, the deformation of the elastic ring is reduced to suppress the deterioration of the sealing performance and the life, and the strength of the bush It is to provide a seal chain that suppresses the decrease.

  In the present invention, the outer link in which both ends of the pin are fitted and fixed in the pin holes of the pair of outer link plates, and the both ends of the bush in which the roller is loosely fitted are protruded from the bush holes of the pair of inner link plates and fixed. The inner link is connected by a pin loosely fitted to the bush, and is arranged on the outer surface of the elastic ring and the elastic ring arranged coaxially with the pin, and is brought into pressure contact with the opposing surface of the outer link plate. In a seal chain in which a seal mechanism composed of a steel seal ring is disposed between opposing surfaces of the outer link plate and the inner link plate, the steel seal ring is externally attached from the inner link plate side. An annular inclined inner peripheral surface that decreases in diameter toward the link plate side and an annular inclined outer peripheral surface that increases in diameter from the inner link plate side toward the outer link plate side are provided. The elastic ring is formed at both ends of the bush protruding from the inner link plate, and the annular inclined outer peripheral end surface is substantially parallel to the inclined inner peripheral surface of the steel seal ring, and the annular steel seal ring is inclined. A cross-sectional deformation amount of the elastic ring that is held between the inner peripheral surface and collapses when the inner link plate approaches the outer link plate is smaller than a movement amount that the inner link plate approaches the outer link plate. Thus, the above-described problems are solved.

  According to the seal chain of the present invention, the seal mechanism in which the seal mechanism is disposed between the outer link plate and the opposed surface of the inner link plate is disposed on the outer side of the elastic ring, which is disposed coaxially with the pin. And a steel seal ring pressed against the opposing surface of the outer link plate, and the steel seal ring includes an annular inclined inner peripheral surface that decreases in diameter from the inner link plate side toward the outer link plate side, An annular inclined outer peripheral surface that expands from the link plate side toward the outer link plate side, and the elastic ring is substantially parallel to the annular inclined inner peripheral surface formed at both ends of the bush protruding from the inner link plate. Is held by the annular inclined outer peripheral end surface and the annular inclined inner peripheral surface of the steel seal ring, so that when the inner link plate approaches the outer link plate, the inner link plate Than the movement amount of approaching the outer link plates, since the cross-sectional deformation of the elastic ring decreases, it is possible to improve the durability of the elastic ring, lowering of sealing performance, a reduction in the service life can be suppressed.

  Since the inclined outer peripheral end surfaces of the bush holding the elastic ring are formed at both ends of the bush protruding from the opposing surface of the inner link plate, the thickness of the bush end in the radial direction can be increased. Strength reduction can be suppressed.

  Since both ends of the bush partly protrude from the opposing surface of the inner link plate, the inclined outer peripheral surface of the steel seal ring is inclined so that its diameter increases from the inner link plate side toward the outer link plate side. The gap between the inner link plate and the outer link plate is large, and foreign matter that has entered once between the inner link plate and the outer link plate is easily discharged from between the inner link plate and the outer link plate. Intrusion of foreign matter between the pin and the bush can be avoided.

An embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a schematic view showing a cross section of a main part of a seal chain according to an embodiment of the present invention, FIG. 2 is a cross sectional view of the seal chain, and FIG. 3 is a cross sectional view of a seal mechanism. 4 is a cross-sectional view as viewed in the direction of arrows XX, FIG. 5 is an explanatory view schematically showing the amount of cross-sectional deformation of the elastic ring, (A) is an explanatory view of the present invention, (B ) Is an explanatory diagram of a conventional example.

  As shown in FIGS. 1 and 2, the seal chain 1 includes an outer link 4 in which both ends of a pin 3 are fitted and fixed in a pin hole 2 a of a pair of outer link plates 2, and a bush hole 5 a of a pair of inner link plates 5. Further, both ends 7a of the bush 7 on which the roller 6 is loosely fitted are projected and fixed to the inner link 8 by being fitted and fixed to the bush 7 by loosely fitting the outer link plate 2 and the inner link. A seal mechanism 9 that seals between the pin 3 and the bush 7 is disposed between the opposing surfaces 2b and 5b of the plate 5.

  Both end portions 7a of the bush 7 protrude from the facing surface 5b of the inner link plate 5, and the outer periphery of the both end portions 7a has an annular slope that decreases in diameter from the inner link plate 5 side toward the outer link plate 2 side. An outer peripheral end face 7b is formed.

As shown in FIG. 2, the pin 3 includes oil passages 3a and 3b inside, and a concave groove 3c communicating with the oil passage 3b on the outer peripheral surface. A lubricant (grease, oil, etc.) is supplied between the outer peripheral surface of the pin 3 and the inner peripheral surface of the bush 7 via the groove 3c.
The concave groove 3c that becomes the oil groove on the outer periphery of the pin 3 may not be provided, and is appropriately provided as necessary.

As shown in FIGS. 3 and 4, the seal mechanism 9 is disposed in pressure contact with the elastic ring 10 disposed coaxially with the pin 3 and the opposing surface 2 b of the outer link plate 2 disposed outside the elastic ring 10. It consists of a steel seal ring 11.
The steel seal ring 11 has an annular inclined inner peripheral surface 11a whose diameter is reduced from the inner link plate 5 side toward the outer link plate 2 side, and the diameter is increased from the inner link plate 5 side toward the outer link plate 2 side. And an annular inclined outer peripheral surface 11b.
The inclined inner peripheral surface 11a of the steel seal ring 11 and the inclined outer peripheral end surface 7b of the bush 7 are formed substantially in parallel.
The elastic ring 10 is held by the inclined outer peripheral surface 7 b of the bush 7 and the inclined inner peripheral surface 11 a of the steel seal ring 11.

The elastic ring 10 is an O-ring made of a synthetic resin or a synthetic rubber (nitrile rubber or fluororubber is preferred) having excellent oil resistance, heat resistance, and wear resistance.
Further, the steel seal ring 11 disposed outside the elastic ring 10 is made of steel or stainless steel.

Although the configuration of the seal chain 1 according to the embodiment of the present invention has been described above, the function and effect will be described below.
A seal mechanism 9 disposed between the opposing surfaces 2b and 5b of both the outer link plate 2 and the inner link plate 5 is disposed on the outer side of the elastic ring 10 and the elastic ring 10 disposed coaxially with the pin 3. The steel seal ring 11 is press-contacted to the opposing surface 2b of the outer link plate 2, and the steel seal ring 11 is formed so as to reduce in diameter from the inner link plate 5 side toward the outer link plate 2 side. The inclined inner peripheral surface 11 a and the inclined outer peripheral surface 11 b formed so as to expand in diameter from the inner link plate 5 side toward the outer link plate 2 side. The elastic ring 10 is opposed to the inner link plate 5. Since the inclined outer peripheral end surface 7b formed at the end 7a of the bush 7 protruding from the surface 5b and the inclined inner peripheral surface 11a of the steel seal ring 11 are held, the inner link plate 5 is the outer link. Since the amount of cross-sectional deformation of the elastic ring 10 is smaller than the amount of movement of the inner link plate 5 approaching the outer link plate 2 when approaching the rate 2, the durability of the elastic ring 10 can be improved, and the sealing performance Can be suppressed.

The amount of cross-sectional deformation of the elastic ring 10 will be described with reference to FIG. 5 schematically showing the cross-sectional deformation of the elastic ring N.
As shown in FIG. 5A as corresponding to the present invention, for example, when the inclined outer peripheral surface Ba formed at both ends of the bush B and the inclined inner peripheral surface Sa of the steel seal ring S are 45 °, When the amount of movement of the inner link plate approaching the outer link plate LP when the inner link plate approaches the outer link plate is δ, the cross-sectional deformation amount of the collapsed elastic ring N is approximately δ / 2.

On the other hand, when the elastic ring N ′ is sandwiched between the vertical surface Ba ′ of the bush B ′ and the vertical surface Sa ′ of the seal ring S ′ as shown in FIG. When the movement amount that the inner link plate approaches the outer link plate LP when the inner link plate approaches the outer link plate is denoted by δ, the sectional deformation amount of the collapsed elastic ring N ′ becomes δ.
Therefore, when the elastic ring N is held by the inclined outer peripheral surface Ba of the bush B and the inclined inner peripheral surface Sa of the steel seal ring S, the durability of the elastic ring N is improved when the inner link plate approaches the outer link plate. Can be improved.
In the above description, the case where the inclined outer peripheral end surface Ba and the inclined inner peripheral surface Sa are parallel and inclined by 45 ° has been described as corresponding to the present invention. However, it is desirable that both be inclined at 45 ° or less.

  Since the inclined outer peripheral end surface 7b of the bush 7 holding the elastic ring 10 is formed at the end portion 7a of the bush 7 protruding from the facing surface 5b of the inner link plate 5, the end of the bush 7 protruding from the inner link plate 5 is formed. The height of the portion 7a from the contact surface 7c with the pin 3 can be increased, that is, the thickness in the radial direction of the end portion 7a of the bush 7 can be increased, so that the strength reduction of the bush 7 can be suppressed. .

  The end 7a of the bush 7 protrudes from the facing surface 5b of the inner link plate 5, and the inclined outer peripheral surface 11b of the steel seal ring 11 expands from the inner link plate 5 side toward the outer link plate 2 side. Therefore, the gap between the inner link plate 5 and the outer link plate 2 is large, and the foreign matter that has entered once between the inner link plate 5 and the outer link plate 2 is between the inner link plate 5 and the outer link plate 2. Therefore, it is possible to avoid the damage of the sealing member and the intrusion of foreign matter between the pin 3 and the bush 7.

Schematic which shows the principal part cross section of the seal chain which is one Example of this invention. Sectional drawing of a seal chain. Sectional drawing of a sealing mechanism. Sectional drawing seen in the XX arrow direction in FIG. It is explanatory drawing which shows typically the cross-sectional deformation amount of an elastic ring, (A) is explanatory drawing of this invention, (B) is explanatory drawing of a prior art example. Explanatory drawing of the seal mechanism in the conventional seal chain.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Seal chain 2 ... Outer link plate 2a ... Pin hole 2b ... Opposite surface 3 ... Pin 3a, 3b ... Oil passage 3c ... Concave groove 3d ... End part 4 ... outer link 5 ... inner link plate 5a ... bush hole 5b ... opposite surface 6 ... roller 7 ... bush 7a ... end 7b ... inclined outer peripheral end face 7c ··· Contact surface 8 ··· Inner link 9 ··· Sealing mechanism 10 ··· Elastic ring 11 ··· Steel seal ring 11a · · · Inclined inner peripheral surface 11b · · · Inclined outer peripheral surface N, N ' .. Elastic rings B, B '... Bush Ba ... Bushing inclined surface S, S' ... Steel seal ring Sa ... Inclined inner peripheral surface LP ... Outer link plate δ ... Movement amount Ba '... Bush vertical surface Sa' .. Vertical plane

Claims (1)

An outer link in which both ends of the pin are fitted and fixed in the pin holes of the pair of outer link plates, and an inner link in which the both ends of the bush in which the rollers are loosely fitted are projected and fixed in the bush holes of the pair of inner link plates; However, in the seal chain in which the pin is connected to the bush by loosely fitting, and a seal mechanism is disposed between the opposed surfaces of the outer link plate and the inner link plate.
The seal mechanism is composed of an elastic ring arranged coaxially with the pin, and a steel seal ring arranged outside the elastic ring and pressed against the opposing surface of the outer link plate,
The seal ring includes an annular inclined inner peripheral surface that decreases in diameter from the inner link plate side toward the outer link plate side, and an annular inclination that increases in diameter from the inner link plate side toward the outer link plate side. An outer peripheral surface,
The elastic ring includes an annular inclined surface substantially parallel to the annular inclined inner peripheral surface formed on the outer periphery of both outermost end portions of the bush projecting from the inner link plate, and an annular inclined surface of the seal ring. A seal chain characterized by being held by a peripheral surface.

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