CN207621277U - A kind of rubber-metal tooth form catenary system - Google Patents

Abstract

The utility model discloses a kind of rubber-metal tooth form catenary system, be by drive sprocket, rubber-metal chain, chain pilled-in selvedge directive wheel, driven sprocket and chain slack list guide wheel group at；Drive sprocket and driven sprocket are separately positioned on the both ends of rubber-metal chain, and are engaged with rubber-metal chain conjugation；The utility model is flexible using rubber, easily torsion, the good advantage of damping property, rubber strip is combined to form a kind of new tooth form chain-rubber-metal chain with monodentate metal carrier bar, since monodentate carrier bar and sprocket teeth are involute profile, what rubber-metal chain was carried out with drive sprocket and driven sprocket respectively when therefore rubber-metal tooth form catenary system operates is ekaconjugation gear motion, when drive sprocket axis and driven sprocket axis be not in same plane, rubber-metal chain is flexible using itself under the action of chain pilled-in selvedge directive wheel, the characteristic of torsion carries out the transmission of power and torque.

Description

A kind of rubber-metal tooth form catenary system

Technical field

The utility model is related to technical field of mechanical transmission, more particularly to a kind of rubber-metal tooth form catenary system.

Background technology

Silent chain is a kind of important basic part in mechanical transmission fields, under high speed, heavy duty, big centre-to-centre spacing operating mode, Transmission performance is due to V belt translation, gear drive and roller chain drives, it has also become one of the driving form of numerous industry first choices.With The type of the extensive use of silent chain, silent chain also can be divided into one flank gearing to diversified development according to the difference in engagement direction Silent chain, two-sided engaging tooth shape chain；According to mesh mechanism difference, outer meshing silent chain, internal messing silent chain, interior-outer can be divided into Compound engaging tooth shape chain；According to the difference of axis pin and sprocket teeth flank profil, round pin formula silent chain and Hy-Vo silent chains can be divided into； Although the type of silent chain is more and more diversified, its application range is still confined to the transmission of the plane between two-parallel axis, Carrier bar can not realize the conjugation engaged transmission of gear with sprocket wheel, since the manufacture material of current silent chain is metal, cause Silent chain impact vibration is larger, and temperature arrising caused by friction is very fast.

Utility model content

The purpose of this utility model is to solve the plane that above-mentioned existing silent chain can be only applied between two-parallel axis to pass Dynamic, transmission mesh impact is big, the fast problem of temperature arrising caused by friction, and a kind of rubber-metal tooth form catenary system provided.

A kind of rubber-metal tooth form catenary system is by drive sprocket, rubber-metal chain, chain pilled-in selvedge directive wheel, driven Sprocket wheel and chain slack list guide wheel group at；

Drive sprocket and driven sprocket are separately positioned on the both ends of rubber-metal chain, and are nibbled with rubber-metal chain conjugation It closes, drive sprocket is identical as driven sprocket structure；

Chain pilled-in selvedge directive wheel and chain slack list directive wheel are arranged on rubber-metal chain, and are rolled with rubber-metal chain Dynamic contact, rubber-metal chain are in flexuosity under the action of chain pilled-in selvedge directive wheel and chain slack list directive wheel, and chain is tight Side directive wheel is identical as chain slack list wheel design；

Chain pilled-in selvedge directive wheel is identical as chain slack list wheel design；

Rubber-metal chain includes rubber strip, monodentate carrier bar, axis pin and high strength steel silk thread；

In monodentate carrier bar, axis pin, high strength steel silk thread insertion rubber strip, monodentate carrier bar and axis pin are connected by articulated manner It connects, connects and be embedded in rubber strip together, two adjacent lists on same axis pin by high strength steel silk thread between two adjacent axis pins It is separated by rubber strip between toothed chain plate；

Monodentate carrier bar has the first contact surface, the second contact surface, the first broached-tooth design and the second broached-tooth design；

First contact surface is identical as the second contact face structure, and the first broached-tooth design and the second broached-tooth design structure are identical and embedding Enter integral with rubber strip shape after rubber strip；

It is fixedly connected with rubber strip by the first broached-tooth design and the second broached-tooth design after monodentate carrier bar insertion rubber strip；

The drive sprocket and driven sprocket are involute sprocket wheel；

First contact surface and the second contact surface are identical involute profile.

The operation principle and process of the utility model：

The utility model is using the good advantage of flexible, the easy torsion of rubber, damping property, by rubber strip and monodentate metal Carrier bar is combined to form a kind of new tooth form chain-rubber-metal chain, when installation according to actual needs first by drive sprocket and Driven sprocket is installed on transmission shaft, according to drive sprocket and driven sprocket axis angulation by chain pilled-in selvedge directive wheel and chain Slack list directive wheel is installed to chain and needs the position being bent, since monodentate carrier bar and sprocket teeth are involute profile, because What rubber-metal chain was carried out with drive sprocket and driven sprocket respectively when this rubber-metal tooth form catenary system operates is ekaconjugation Gear motion, when drive sprocket axis and driven sprocket axis be not in same plane, rubber-metal chain is led in chain pilled-in selvedge Flexible using itself under the action of to wheel, torsion characteristic carries out the transmission of power and torque.

The utility model has the beneficial effects that：

1, silent chain carrier bar is embedded in rubber strip and forms a kind of new transmission parts-rubber-metal by the utility model Chain makes traditional silent chain be provided with the flexible easy torsion of rubber strip, the good characteristic of vibration absorbing performance, while also overcoming traditional rubber Adhesive tape transmission torque is small, the low disadvantage of bearing capacity.

2, rubber-metal chain realizes drive sprocket and driven sprocket axis not parallel operating mode under the action of directive wheel Under transmission, broken the limitation for the plane motion that chain is only used between two-parallel axis, and rubber-metal can be passed through The space transmission of neither parallel axes is realized in the torsion of chain.

3, monodentate carrier bar flank profil and drive sprocket and driven sprocket gear tooth profile are all made of involute profile, realize biography The ekaconjugation engaged transmission that system silent chain cannot achieve reduces the mesh impact and polygon effect of silent chain carrier bar and sprocket wheel It answers, while improving the accuracy of silent chain drive system.

4, directive wheel and rubber-metal chain side are in rolling contact, and frictional vibration is smaller and is easily changed the side of chain drive To compact-sized and be easily installed.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the partial schematic diagram of the utility model；

Fig. 3 is the partial schematic diagram of the utility model；

Fig. 4 is the partial schematic diagram of the utility model；

Fig. 5 is the partial schematic diagram of the utility model；

Fig. 6 is the partial schematic diagram of the utility model；

Fig. 7 is the partial schematic diagram of the utility model；

Fig. 8 is the partial schematic diagram of the utility model.

Specific implementation mode

Please refer to Fig.1 shown in-Fig. 8, a kind of rubber-metal tooth form catenary system, be by drive sprocket 1, rubber-metal chain 2, Chain pilled-in selvedge directive wheel 3, driven sprocket 4 and chain slack list directive wheel 5 form；

Drive sprocket 1 and driven sprocket 4 are separately positioned on the both ends of rubber-metal chain 2, and total with rubber-metal chain 2 Yoke engages, and drive sprocket 1 is identical as 4 structure of driven sprocket；

Chain pilled-in selvedge directive wheel 3 and chain slack list directive wheel 5 are arranged on rubber-metal chain 2, and with rubber-metal chain Item 2 is in rolling contact, and rubber-metal chain 2 is in bending under the action of chain pilled-in selvedge directive wheel 3 and chain slack list directive wheel 5 State, chain pilled-in selvedge directive wheel 3 are identical as chain slack list 5 structures of directive wheel；

Chain pilled-in selvedge directive wheel 3 is identical as chain slack list 5 structures of directive wheel；

Rubber-metal chain 2 includes rubber strip 21, monodentate carrier bar 22, axis pin 23 and high strength steel silk thread 24；

Monodentate carrier bar 22, axis pin 23, high strength steel silk thread 24 are embedded in rubber strip 21, and monodentate carrier bar 22 and axis pin 23 are logical Articulated manner connection is crossed, is connected by high strength steel silk thread 24 between two adjacent axis pins 23 and is embedded in rubber strip 21 together, together It is separated by rubber strip 21 between two adjacent monodentate carrier bars 22 on one axis pin 23；

Monodentate carrier bar 22 has the first contact surface 221, the second contact surface 222, the first broached-tooth design 223 and the second sawtooth Structure 224；

First contact surface 221 is identical as 222 structure of the second contact surface, the first broached-tooth design 223 and the second broached-tooth design 224 It is integral with 21 shape of rubber strip after the identical and embedded rubber strip 21 of structure；

Monodentate carrier bar 22 passes through the first broached-tooth design 223 and the second broached-tooth design 224 and rubber strip after being embedded in rubber strip 21 21 are fixedly connected；

The drive sprocket 1 and driven sprocket 4 are involute sprocket wheel；

First contact surface, 221 and second contact surface 222 is identical involute profile.

The operation principle and process of the utility model：

The utility model is using the good advantage of flexible, the easy torsion of rubber, damping property, by rubber strip 21 and monodentate Metal carrier bar is combined to form a kind of new tooth form chain-rubber-metal chain, according to actual needs first by drive chain when installation Wheel 1 and driven sprocket 4 are installed on transmission shaft, according to drive sprocket 1 and 4 axis angulation of driven sprocket by chain pilled-in selvedge Directive wheel 3 and chain slack list directive wheel 5 are installed to chain and need the position being bent, since monodentate carrier bar 22 is with sprocket teeth Involute profile, thus when rubber-metal tooth form catenary system operates rubber-metal chain 2 respectively with drive sprocket 1 and driven sprocket 4 carry out is ekaconjugation gear motion, when drive sprocket axis and driven sprocket axis be not in same plane, rubber-metal chain The transmission of item 2 characteristic progress power and torque flexible using itself under the action of chain pilled-in selvedge directive wheel 3, torsion.

Claims (1)

1. a kind of rubber-metal tooth form catenary system is by drive sprocket (1), rubber-metal chain (2), chain pilled-in selvedge directive wheel (3), driven sprocket (4) and chain slack list directive wheel (5) composition；

Drive sprocket (1) and driven sprocket (4) are separately positioned on the both ends of rubber-metal chain (2), and with rubber-metal chain (2) conjugation engagement, drive sprocket (1) are identical as driven sprocket (4) structure；

Chain pilled-in selvedge directive wheel (3) and chain slack list directive wheel (5) are arranged on rubber-metal chain (2), and and rubber-metal Chain (2) is in rolling contact, and rubber-metal chain (2) is under the action of chain pilled-in selvedge directive wheel (3) and chain slack list directive wheel (5) In flexuosity, chain pilled-in selvedge directive wheel (3) is identical as chain slack list directive wheel (5) structure；

Chain pilled-in selvedge directive wheel (3) is identical as chain slack list directive wheel (5) structure；

Rubber-metal chain (2) includes rubber strip (21), monodentate carrier bar (22), axis pin (23) and high strength steel silk thread (24)；

In the embedded rubber strip (21) of monodentate carrier bar (22), axis pin (23), high strength steel silk thread (24), monodentate carrier bar (22) and axis pin (23) it is connected by articulated manner, connected by high strength steel silk thread (24) between two adjacent axis pins (23) and is embedded in rubber together In band (21), separated by rubber strip (21) between two adjacent monodentate carrier bars (22) on same axis pin (23)；

Monodentate carrier bar (22) has the first contact surface (221), the second contact surface (222), the first broached-tooth design (223) and the second saw Toothing (224)；

First contact surface (221) is identical as the second contact surface (222) structure, the first broached-tooth design (223) and the second broached-tooth design (224) the identical and embedded rubber strip (21) of structure is integral with rubber strip (21) shape afterwards；

Pass through the first broached-tooth design (223) and the second broached-tooth design (224) and rubber after the embedded rubber strip (21) of monodentate carrier bar (22) Adhesive tape (21) is fixedly connected；

The drive sprocket (1) and driven sprocket (4) are involute sprocket wheel；

First contact surface (221) and the second contact surface (222) are identical involute profile.