CN208271656U - One kind is for the synchronous detection type traction mechanism of cage stranding machine nature separated time - Google Patents

Abstract

The utility model relates to cage stranding machine fields, more particularly to it is a kind of for the synchronous detection type traction mechanism of cage stranding machine nature separated time, including drawing main chassis, it draws setting below main chassis and draws secondary chassis, it draws and left traction wheel bull gear and right traction wheel bull gear is set between secondary chassis and the main chassis of traction, gap bridge helical gear is installed in setting traction bevel pinion between right traction wheel bull gear and left traction wheel bull gear, traction bevel pinion top, and gap bridge helical gear is engaged with reduction gearbox bevel pinion；First synchronous pulley is installed on the traction bevel pinion, encoder is housed on the traction wheel bearing seat, encoder connects the second synchronous pulley, and the second synchronous pulley passes through synchronous band connection with the first synchronous pulley.The utility model abandons single-stage driving system, is driven more steady PLC by encoder, the first synchronous pulley and the second synchronous pulley by hauling speed synchronous transfer to master in automatically controlled, then calculate with cage speeds match, can get precisely traction linear velocity.

Description

One kind is for the synchronous detection type traction mechanism of cage stranding machine nature separated time

Technical field

The utility model relates to cage stranding machine fields, more particularly to a kind of synchronize for cage stranding machine nature separated time to examine Survey type traction mechanism.

Background technique

Stranding machine is a kind of stranding mechanical equipment that can be widely used in all kinds of soft, hard conductor lines, makes more single conductors It is twisted into one, reaches the technique requirement of wire rod；Stranding machine can be generally divided into single twist cabling machine, pair twister, high speed according to twisted wire mode Stranding machine, untwisting machine, cage stranding machine, frame work stranding machine, tube-type line strander and disc type stranding machine etc..

Traditional cage stranding machine uses single-stage driving system, and transmission is not stable enough, and can not understand and learn going out for cable The control of linear velocity, cable pitch is not accurate enough.

Utility model content

The purpose of this utility model is to provide one kind to synchronize detection type traction mechanism for cage stranding machine nature separated time, To solve the above technical problems.

The utility model using following technical scheme in order to solve the above technical problems, realized:

One kind is for the synchronous detection type traction mechanism of cage stranding machine nature separated time, including the main chassis of traction, the traction Secondary chassis is drawn in setting below main chassis, is drawn and is passed through left traction separated time wheel shaft and right traction between secondary chassis and the main chassis of traction Branching wheel axis connection, the left traction separated time wheel shaft are rotatably assorted with main chassis is drawn, the left traction separated time wheel shaft and traction Secondary chassis is rotatably assorted, and the right traction separated time wheel shaft is rotatably assorted with main chassis is drawn, the right traction separated time wheel shaft with lead Draw secondary chassis to be rotatably assorted, main branching wheel and left traction wheel bull gear, the right traction are installed on the left traction separated time wheel shaft Secondary branching wheel and right traction wheel bull gear are installed, between the left traction wheel bull gear and right traction wheel bull gear on separated time wheel shaft Setting traction bevel pinion, traction bevel pinion have tilt angle, the traction bevel pinion respectively with left traction wheel canine tooth Circle, the occlusion of right traction wheel bull gear, the traction bevel pinion are mounted on transmission shaft, and transmission shaft one end passes through traction wheel bearing Seat is connect with main chassis is drawn, and the transmission shaft other end is rotatably connected on the secondary chassis of traction, is set above the traction bevel pinion Gap bridge helical gear is set, gap bridge helical gear is mounted on transmission shaft, and the gap bridge helical gear is engaged with reduction gearbox bevel pinion, is slowed down Case bevel pinion is located on DBY reduction gearbox；It tests the speed part on the traction bevel pinion and traction wheel bearing seat equipped with draught line, Draught line tests the speed part comprising being mounted on the first synchronous pulley drawn on bevel pinion, is equipped with and compiles on the traction wheel bearing seat Code device, encoder connect the second synchronous pulley, and the second synchronous pulley passes through synchronous band connection with the first synchronous pulley.

Preferably, the DBY reduction gearbox is fixed on the main chassis of traction.

Preferably, the left traction separated time wheel shaft and right traction separated time wheel shaft pass through separated time wheel bearing seat respectively and traction is led Chassis connection.

Preferably, the left traction separated time wheel shaft and right traction separated time wheel shaft pass through separated time wheel bearing seat respectively and traction is secondary Chassis connection.

Preferably, the left traction wheel bull gear (6), right traction wheel bull gear (8) and traction bevel pinion (9) are located at same One plane.

Preferably, the transmission shaft (10) passes through traction wheel bearing seat (19) installation far from the one end for drawing main chassis (1) On drawing secondary chassis (2).

The beneficial effects of the utility model are:

The utility model abandons single-stage driving system, and transmission is more steady, passes through encoder, the first synchronous pulley and second PLC of the synchronous pulley by hauling speed synchronous transfer to master in automatically controlled, then calculated with cage speeds match, it can get precisely traction Linear velocity makes operator more be clear that cable goes out linear velocity, cooperates the use of velocity sensor, cable section can be improved Away from control requirement, error can be controlled in 0.03-0.05mm.

Detailed description of the invention

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

Fig. 2 is that the draught line of the utility model tests the speed partial schematic diagram；

Appended drawing reference: 1- draws main chassis；2- draws secondary chassis；The left traction separated time wheel shaft of 3-；The right traction separated time wheel shaft of 4-； The main branching wheel of 5-；The left traction wheel bull gear of 6-；7- pair branching wheel；The right traction wheel bull gear of 8-；9- draws bevel pinion；10- is passed Moving axis；11- gap bridge helical gear；12- reduction gearbox bevel pinion；13-DBY reduction gearbox；The first synchronous pulley of 14-；15- second is same Walk belt wheel；16- synchronous belt；17- encoder；18- separated time wheel bearing seat；19- draws wheel bearing seat.

Specific embodiment

In order to be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, under The utility model is further described in face with specific embodiments and the drawings, but following embodiments are only the excellent of the utility model Embodiment is selected, and not all.Based on the implementation example in the implementation mode, those skilled in the art are not making creative work Under the premise of obtained other embodiments, belong to protection scope of the present invention.

Specific embodiment of the utility model is described with reference to the accompanying drawing.

As shown in Figs. 1-2, a kind of for the synchronous detection type traction mechanism of cage stranding machine nature separated time, including the main bottom of traction Frame 1 draws setting below main chassis 1 and draws secondary chassis 2, draws and passes through left traction separated time between secondary chassis 2 and the main chassis 1 of traction Wheel shaft 3 and the connection of right traction separated time wheel shaft 4, left traction separated time wheel shaft 3 are rotatably assorted with main chassis 1 is drawn, left traction branching wheel Axis 3 is rotatably assorted with secondary chassis 2 is drawn, and right traction separated time wheel shaft 4 is rotatably assorted with main chassis 1 is drawn, right traction separated time wheel shaft 4 It is rotatably assorted with secondary chassis 2 is drawn, main branching wheel 5 and left traction wheel bull gear 6, right traction is installed on left traction separated time wheel shaft 3 Secondary branching wheel 7 and right traction wheel bull gear 8 be installed on separated time wheel shaft 4, left traction wheel bull gear 6 and right traction wheel bull gear 8 it Between setting traction bevel pinion 9, traction bevel pinion 9 have tilt angle, traction bevel pinion 9 respectively with left traction wheel canine tooth Circle 6, the occlusion of right traction wheel bull gear 8, traction bevel pinion 9 are mounted on transmission shaft 10, and 10 one end of transmission shaft passes through traction wheel Bearing block 19 is connect with main chassis 1 is drawn, and 10 other end of transmission shaft is rotatably connected on the secondary chassis 2 of traction, draws bevel pinion 9 Gap bridge helical gear 11 is arranged in top, and gap bridge helical gear 11 is mounted on transmission shaft 10, gap bridge helical gear 11 and the small helical teeth of reduction gearbox 12 occlusion of wheel, reduction gearbox bevel pinion 12 are located on DBY reduction gearbox 13；It is filled on traction bevel pinion 9 and traction wheel bearing seat 19 There is draught line to test the speed part, draught line part of testing the speed includes the first synchronous pulley 14 for being mounted on traction bevel pinion 9, traction Encoder 17 is housed, encoder 17 connects the second synchronous pulley 15, and the second synchronous pulley 15 is synchronous with first on wheel bearing seat 19 Belt wheel 14 is connected by synchronous belt 16.

In the present embodiment, DBY reduction gearbox is fixed on the main chassis 1 of traction.

In the present embodiment, left traction separated time wheel shaft 3 and right traction separated time wheel shaft 4 pass through separated time wheel bearing seat 18 and lead respectively Draw main chassis 1 to connect.

In the present embodiment, left traction separated time wheel shaft 3 and right traction separated time wheel shaft 4 pass through separated time wheel bearing seat 18 and lead respectively Draw secondary chassis 2 to connect.

In the present embodiment, left traction wheel bull gear (6), right traction wheel bull gear (8) and traction bevel pinion (9) are located at same One plane.

In the present embodiment, transmission shaft (10) passes through traction wheel bearing seat (19) installation far from the one end for drawing main chassis (1) On drawing secondary chassis (2).

In use, the reduction gearbox bevel pinion 12 on DBY reduction gearbox 13 drives gap bridge helical gear 11 to rotate, gap bridge helical gear 11 drive traction bevel pinion 9 to rotate by transmission shaft 10, and traction bevel pinion 9 drives left traction wheel bull gear 6 and right traction It takes turns bull gear 8 to rotate, left traction wheel bull gear 6 drives main branching wheel 5 to rotate by left traction separated time wheel shaft 3, and right traction wheel is big Gear ring 8 drives secondary branching wheel 7 to rotate by right traction separated time wheel shaft 4, can be with since traction bevel pinion 9 is with tilt angle Winner's branching wheel 5 and secondary branching wheel 7 is set to realize differential seat angle simultaneously, to realize cable nature separated time function.

It draws the rotation of bevel pinion 9 and drives the rotation of the first synchronous pulley 14, the first synchronous pulley 14 passes through 16 band of synchronous belt Dynamic second synchronous pulley 15 rotation, in giving master automatically controlled hauling speed synchronous transfer by the second synchronous pulley 15 and encoder 17 PLC, then with cage speeds match calculate, can get precisely traction linear velocity.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it "lower" may include that the first and second features directly contact, and also may include that the first and second features are not direct contacts but lead to Cross the other characterisation contact between them.Moreover, fisrt feature includes above the second feature " above ", " above " and " above " One feature is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.First is special Sign is directly below and diagonally below the second feature including fisrt feature under the second feature " below ", " below " and " below ", or only Indicate that first feature horizontal height is less than second feature.

Basic principles, main features, and advantages of the present invention has been shown and described above.Current row The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments Be only the utility model preference, be not intended to limit the utility model, do not departing from the spirit and scope of the utility model Under the premise of, the utility model also has various changes and improvements, these changes and improvements both fall within claimed it is practical In novel range.The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

1. one kind is for the synchronous detection type traction mechanism of cage stranding machine nature separated time, including the main chassis (1) of traction, feature exists In:

Secondary chassis (2) is drawn in setting below the main chassis (1) of traction, is drawn and is led between secondary chassis (2) and the main chassis (1) of traction Cross left traction separated time wheel shaft (3) and the connection of right traction separated time wheel shaft (4), the left traction separated time wheel shaft (3) and the main chassis of traction (1) it is rotatably assorted, the left traction separated time wheel shaft (3) is rotatably assorted with secondary chassis (2) is drawn, the right traction separated time wheel shaft (4) it is rotatably assorted with the main chassis (1) of traction, the right traction separated time wheel shaft (4) is rotatably assorted with secondary chassis (2) is drawn, described Main branching wheel (5) and left traction wheel bull gear (6) be installed, on the right traction separated time wheel shaft (4) on left traction separated time wheel shaft (3) Secondary branching wheel (7) and right traction wheel bull gear (8) be installed, the left traction wheel bull gear (6) and right traction wheel bull gear (8) it Between setting traction bevel pinion (9), traction bevel pinion (9) have tilt angle, the traction bevel pinion (9) respectively with a left side Traction wheel bull gear (6), right traction wheel bull gear (8) occlusion, the traction bevel pinion (9) are mounted on transmission shaft (10), Transmission shaft (10) one end is connect by traction wheel bearing seat (19) with main chassis (1) is drawn, and the rotation of transmission shaft (10) other end connects It connects on drawing secondary chassis (2), gap bridge helical gear (11) is set above the traction bevel pinion (9), gap bridge helical gear (11) It is mounted on transmission shaft (10), the gap bridge helical gear (11) is engaged with reduction gearbox bevel pinion (12), reduction gearbox bevel pinion (12) it is located on DBY reduction gearbox (13)；

It tests the speed part in the traction bevel pinion (9) and traction wheel bearing seat (19) equipped with draught line, draught line tests the speed part Comprising the first synchronous pulley (14) being mounted in traction bevel pinion (9), coding is housed on the traction wheel bearing seat (19) Device (17), encoder (17) connect the second synchronous pulley (15), and the second synchronous pulley (15) passes through with the first synchronous pulley (14) Synchronous belt (16) connection.

2. according to claim 1 a kind of for the synchronous detection type traction mechanism of cage stranding machine nature separated time, feature Be: the DBY reduction gearbox is fixed on the main chassis (1) of traction.

3. according to claim 1 a kind of for the synchronous detection type traction mechanism of cage stranding machine nature separated time, feature Be: the left traction separated time wheel shaft (3) and right traction separated time wheel shaft (4) are led by separated time wheel bearing seat (18) and traction respectively Chassis (1) connection.

4. according to claim 1 a kind of for the synchronous detection type traction mechanism of cage stranding machine nature separated time, feature Be: the left traction separated time wheel shaft (3) and right traction separated time wheel shaft (4) are secondary by separated time wheel bearing seat (18) and traction respectively Chassis (2) connection.

5. according to claim 1 a kind of for the synchronous detection type traction mechanism of cage stranding machine nature separated time, feature Be: the left traction wheel bull gear (6), right traction wheel bull gear (8) and traction bevel pinion (9) are generally aligned in the same plane.

6. according to claim 1 a kind of for the synchronous detection type traction mechanism of cage stranding machine nature separated time, feature Be: the transmission shaft (10) is mounted on the secondary bottom of traction by drawing wheel bearing seat (19) far from the one end for drawing main chassis (1) On frame (2).