CN210230512U - Transmission structure for reducing rubber sleeve loss - Google Patents

Abstract

The utility model provides a reduce transmission structure of gum cover loss, including the transmission shaft, the top of transmission shaft is equipped with the transmission crossbeam, be equipped with the big annular knurl of a plurality of on the transmission shaft, be equipped with on the transmission crossbeam with the corresponding little knurling axle of big annular knurl, the cover is equipped with the gum cover on the big annular knurl, the transmission shaft with when little knurling axle rolls, the gum cover with little knurling axle rolling contact. A transmission structure for reducing the loss of a rubber sleeve starts by combining the surface abrasion and the actual consumption condition of the rubber sleeve, changes the friction force of the contact surface of the rubber sleeve and changes the force mode, and the hard friction force between the stainless steel bar and the transmission structure is changed into the rolling friction force contacting with a small rolling shaft; the modified mode can not only ensure the normal service cycle of the rubber sleeve, but also select part of the rubber sleeve from the used rubber sleeve for secondary use, thereby greatly reducing the cost of the consumable goods of the company; this transformation material stainless steel material, durable, long-term reduction company's cost.

Description

Transmission structure for reducing rubber sleeve loss

Technical Field

The utility model relates to a glass fiber production field, more specifically say and indicate a transmission structure who reduces the gum cover loss.

Background

The friction force of ① rubber sleeve is larger, which reduces the service life of rubber sleeve, can not ensure the normal replacement period of rubber sleeve, increases the cost consumption of easy-to-consume products of company, ② force effect is mutual, the surface of stainless steel bar contacting rubber sleeve is worn gradually in the operation process, which has influence on the production process central line, and has hidden trouble on the product quality.

The existing transmission mode of the oiling device cannot ensure the service cycle of the rubber sleeve for 4 days, and the consumable consumption of a company is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the defect that prior art exists, provide a reduce transmission structure of gum cover loss.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a reduce transmission structure of gum cover loss, includes the transmission shaft, the top of transmission shaft is equipped with the transmission crossbeam, be equipped with the big annular knurl of a plurality of on the transmission shaft, be equipped with on the transmission crossbeam with the corresponding little knurled shaft of big annular knurl, the cover is equipped with the gum cover on the big annular knurl, the transmission shaft with when little knurled shaft rolls, the gum cover with little knurled shaft rolling contact.

The further technical scheme is as follows: the transmission shaft fixing supports are arranged at two ends of the transmission shaft, and the transmission shaft is arranged at the bottom of the transmission shaft fixing supports.

The further technical scheme is as follows: the bearing seats of the small knurling shafts are arranged at two ends of the small knurling shafts, and the small knurling shafts are arranged on the bearing seats of the small knurling shafts.

The further technical scheme is as follows: the small knurling shaft and the small knurling shaft bearing seat are in interference fit.

The further technical scheme is as follows: the transmission beam is provided with a fixed slot position, and the small knurling shaft bearing seat is arranged in the fixed slot position.

The further technical scheme is as follows: the fixed slot position is 10 mm.

The further technical scheme is as follows: the transmission beam is arranged at the top of the transmission shaft fixing support.

The further technical scheme is as follows: and the transmission beam is provided with a beam adjusting hole position.

The further technical scheme is as follows: the number of the large knurls is three and the large knurls are uniformly arranged along the length direction of the transmission shaft at intervals.

Compared with the prior art, the utility model beneficial effect is: the utility model relates to a reduce transmission structure of gum cover loss starts through combining gum cover surface wearing and tearing and the actual consumption condition, is equipped with the little knurling axle corresponding with big annular knurl through the transmission crossbeam, and the cover is equipped with the gum cover on the big annular knurl, and when transmission shaft and little knurling axle roll, gum cover and little knurling axle rolling contact. The friction force of the contact surface of the rubber sleeve is changed, and the mode of changing the force is changed, and the hard friction force between the stainless steel bar and the rubber sleeve is changed into rolling friction force contacting with the small rolling shaft; the modified mode can not only ensure the normal service cycle of the rubber sleeve, but also select part of the rubber sleeve from the used rubber sleeve for secondary use, thereby greatly reducing the cost of the consumable goods of the company; this transformation material stainless steel material, durable, long-term reduction company's cost.

The invention is further described with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a partial enlarged view of a transmission structure for reducing the rubber sleeve loss according to the present invention;

fig. 2 is a schematic structural diagram of a transmission structure for reducing the loss of the rubber sleeve.

Reference numerals

1 transmission shaft 2 transmission shaft fixing support

3 crossbeam is adjusted hole site 4 and is transmitted crossbeam

5 small roller bearing seat 6 small knurling shaft

7 big knurl

Detailed Description

In order to more fully understand the technical content of the present invention, the technical solution of the present invention will be further described and illustrated with reference to the following specific embodiments, but not limited thereto.

As shown in fig. 1 to 2, a transmission structure for reducing rubber sleeve loss comprises a transmission shaft 1, a transmission beam 4 is arranged above the transmission shaft 1, a plurality of large knurls 7 are arranged on the transmission shaft 1, small knurls 6 corresponding to the large knurls 7 are arranged on the transmission beam 4, a rubber sleeve is sleeved on the large knurls 7, and when the transmission shaft 1 rolls with the small knurls 6, the rubber sleeve is in rolling contact with the small knurls 6. The friction force of the contact surface of the rubber sleeve is changed into the force changing mode, the hard friction force between the stainless steel rod and the rubber sleeve is changed into the rolling friction force contacting with the small knurling shaft 6, the friction is reduced, the service cycle of the rubber sleeve is ensured, and the cost is saved.

Specifically, as shown in fig. 1 to 2, the transmission shaft fixing support 2 is further included, the transmission shaft fixing support 2 is disposed at two ends of the transmission shaft 1, and the transmission shaft 1 is mounted at the bottom of the transmission shaft fixing support 2.

Specifically, as shown in fig. 1 to 2, the bearing support device further includes small knurled shaft bearing supports 5, the small knurled shaft bearing supports 5 are disposed at two ends of a small knurled shaft 6, and the small knurled shaft 6 is mounted on the small knurled shaft bearing supports 5.

Specifically, as shown in fig. 1 to 2, the small knurled shaft 6 and the small knurled shaft bearing seat 5 are in an interference fit. The small knurling shaft bearing seat 5 is additionally provided with a fixing screw for locking, so that the fastening effect is improved, and the situation of displacement in the use process is prevented.

Specifically, the appearance design of little knurling axle bearing frame 5, the stationary plane material thickening improves part service strength, but the oil condition is thrown away easily to the excessive thickness appearing in the use, and the on-the-spot use is tightened about face thickness control 5mm effect best.

Specifically, as shown in fig. 1 to 2, a fixed slot is provided on the transmission beam 4, and the small knurled shaft bearing seat 5 is installed in the fixed slot.

Specifically, as shown in fig. 1 to 2, the fixing groove is 10 mm.

Specifically, the processing of the groove surface of the cross beam requires that the surface is smooth and flat, so that the requirement of the balance degree of the installation of the bearing seat 5 of the small knurled shaft is ensured, the effect of smooth rotation of the small roller in the use process is ensured, and the optimal rolling friction force is achieved.

Specifically, as shown in fig. 1 to 2, the drive beam 4 is mounted on the top of the drive shaft fixing mount 2.

Specifically, as shown in fig. 1 to 2, a beam adjusting hole position 3 is provided on the transmission beam 4 for adjusting the tightness of the beam.

Specifically, as shown in fig. 1 to 2, the large knurls 7 are three in number and are uniformly spaced along the length direction of the drive shaft 1.

In another specific embodiment, the number of the large knurls 7 can be multiple, such as four, five, six, and the like, the specific number can be set according to the length of the transmission shaft 1 and the actual working condition, the number of the corresponding small knurls 6 is correspondingly changed, and the friction between the rubber sleeve and the small knurls 6 is changed into rolling friction in a force changing manner, so that the consumption of the rubber sleeve is reduced.

Specifically, the manufacturing method comprises the steps of manufacturing a bearing fixing support by ① linear cutting, processing a 10mm fixing groove position by a ② fixed beam milling machine, wherein the groove surface is required to be flat, the position of the groove surface is required to have the deviation of +/-3 mm according to the field process size requirement, and fixing screws of a ③ bearing seat.

Specifically, the mechanical mounting steps comprise ① mounting a bearing in a corresponding bearing seat vacant position, ② mounting a small knurled shaft 6, ③ mounting the assembled bearing seat and the small knurled shaft 6 at the position of a reserved groove surface of a cross beam of the transmission shaft 1, ④ mounting a required process, fixing screws of the bearing seat for locking, and ⑤ placing a field mounting rubber sleeve for normal use.

Specifically, as shown in fig. 1 to 2, in combination with the surface wear of the rubber sleeve and the actual consumption situation, the small knurled shaft 6 corresponding to the large knurls 7 is arranged on the transmission cross beam 4, the rubber sleeve is sleeved on the large knurls 7, and when the transmission shaft 1 rolls on the small knurled shaft 6, the rubber sleeve is in rolling contact with the small knurled shaft 6. The friction force of the contact surface of the rubber sleeve is changed, and the mode of changing the force is changed, and the hard friction force between the stainless steel bar and the rubber sleeve is changed into rolling friction force contacting with the small rolling shaft; the modified mode can not only ensure the normal service cycle of the rubber sleeve, but also select part of the rubber sleeve from the used rubber sleeve for secondary use, thereby greatly reducing the cost of the consumable goods of the company; this transformation material stainless steel material, durable, long-term reduction company's cost.

To sum up, the utility model relates to a reduce transmission structure of gum cover loss starts with through combining gum cover surface abrasion and the actual consumption condition, is equipped with the little knurling axle corresponding with big annular knurl through the transmission crossbeam, and the cover is equipped with the gum cover on the big annular knurl, and when transmission shaft and little knurling axle roll, gum cover and little knurling axle rolling contact. The friction force of the contact surface of the rubber sleeve is changed, and the mode of changing the force is changed, and the hard friction force between the stainless steel bar and the rubber sleeve is changed into rolling friction force contacting with the small rolling shaft; the modified mode can not only ensure the normal service cycle of the rubber sleeve, but also select part of the rubber sleeve from the used rubber sleeve for secondary use, thereby greatly reducing the cost of the consumable goods of the company; this transformation material stainless steel material, durable, long-term reduction company's cost.

The technical content of the present invention is further described by the embodiments only, so that the reader can understand it more easily, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation according to the present invention is protected by the present invention. The protection scope of the present invention is subject to the claims.

Claims (9)

1. The utility model provides a reduce transmission structure of gum cover loss, a serial communication port, includes the transmission shaft, the top of transmission shaft is equipped with the transmission crossbeam, be equipped with the big annular knurl of a plurality of on the transmission shaft, be equipped with on the transmission crossbeam with the corresponding little knurled shaft of big annular knurl, the cover is equipped with the gum cover on the big annular knurl, the transmission shaft with when little knurled shaft rolls, the gum cover with little knurled shaft rolling contact.

2. The transmission structure for reducing the rubber sleeve loss according to claim 1, further comprising transmission shaft fixing supports, wherein the transmission shaft fixing supports are arranged at two ends of the transmission shaft, and the transmission shaft is mounted at the bottom of the transmission shaft fixing supports.

3. The transmission structure for reducing the rubber sleeve loss according to claim 1, further comprising small knurled shaft bearing seats, wherein the small knurled shaft bearing seats are arranged at two ends of the small knurled shaft, and the small knurled shaft is mounted on the small knurled shaft bearing seats.

4. The transmission structure for reducing the rubber sleeve loss according to claim 3, wherein the small knurled shaft is in interference fit with the small knurled shaft bearing seat.

5. The transmission structure for reducing the rubber sleeve loss as claimed in claim 3, wherein a fixing slot is arranged on the transmission beam, and the small knurled shaft bearing seat is mounted in the fixing slot.

6. The transmission structure for reducing the rubber sleeve loss according to claim 5, wherein the fixing slot is 10 mm.

7. The transmission structure for reducing the rubber sleeve loss according to claim 2, wherein the transmission beam is mounted on the top of the transmission shaft fixing support.

8. The transmission structure for reducing the rubber sleeve loss according to claim 7, wherein the transmission beam is provided with a beam adjusting hole position.

9. The transmission structure for reducing the rubber sleeve loss as claimed in claim 8, wherein the number of the large knurls is three and the large knurls are uniformly arranged at intervals along the length direction of the transmission shaft.

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