CN211679769U - Wire feeding and rotating transmission mechanism of computer spring machine - Google Patents

Abstract

The utility model discloses a computer coiling machine send line change line drive mechanism, send line mechanism to include intermeshing send line motor gear and send line transfer gear, send line transfer gear's front surface to be fixed with and send the line bearing frame, send line transfer gear and send the line bearing frame to be connected to the back wallboard through first sending the line bearing, send line transfer gear to send the line gear wheel through sending the connection of line back shaft, send the front surface of line gear wheel to be equipped with and send the line bevel gear. The line turning mechanism comprises a line turning motor gear and a line turning transfer gear which are meshed with each other, a line turning bearing seat is fixed on the front surface of the line turning transfer gear, the line turning transfer gear and the line turning bearing seat are connected to the front cover of the rear wall plate through a line turning bearing, and a line turning large gear is fixed on the line turning bearing seat; the utility model has the advantages that the wire feeding mechanism is arranged on the wall plate and is driven into the wire feeding box body through the wire feeding bevel gear, the structure is simple, the operation is convenient, the stability is improved, and the working efficiency and the working precision are improved; the load of the box body during rotation is reduced, and the safety is improved.

Description

Wire feeding and rotating transmission mechanism of computer spring machine

Technical Field

The utility model relates to a computer coiling machine technical field, concretely relates to computer coiling machine send line change drive mechanism.

Background

In the prior computer spring machine, wire feeding and wire rotating are separately and independently operated, the wire feeding mechanism controls the in and out of a steel wire, the wire rotating mechanism is used for processing the appearance of a spring, the wire rotating mechanism is placed on a rear wall plate and drives a wire rotating box body to operate through gear transmission, and the wire feeding mechanism is arranged on the wire rotating box body to operate; therefore, the wire feeding motor is required to be arranged on the box body, and the wire feeding motor rotates along with the box body along with the work, so that the mechanism has the following defects:

(1) the mechanism is complex, the transmission is not stable, the control is not easy, and the transmission efficiency and the precision are lower;

(2) the wire feeding mechanism motor is arranged on the wire feeding box body, so that the weight of the box body is increased, and the load of the wire rotating mechanism is increased, so that a certain influence is exerted on the spring processing;

(3) send line motor circuit to need through the box during reentrant back wallboard, when still remaining will change the line simultaneously, the winding surplus of motor line is left, and the circuit is complicated.

In view of this, it is urgently needed to improve the wire feeding and rotating transmission mechanism of the existing computer spring machine, so that the structure is simple, the operation is convenient, the transmission stability is improved, the working efficiency and the working precision are improved, and the safety is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that current computer coiling machine send line change drive mechanism complicated, the transmission is unstable, the precision is low, the low problem of security.

In order to solve the technical problem, the utility model provides a computer coiling machine send line change drive mechanism, including the back wallboard, the back wallboard includes lid behind back wallboard protecgulum and the back wallboard through bolted connection, still includes:

the wire feeding mechanism comprises a wire feeding motor gear and a wire feeding transfer gear which are meshed with each other, wherein a wire feeding bearing seat is fixed on the front surface of the wire feeding transfer gear, the wire feeding transfer gear and the wire feeding bearing seat are connected to the rear wall plate through a first wire feeding bearing, the wire feeding transfer gear is connected with a wire feeding large gear through a wire feeding support shaft, and a wire feeding bevel gear is arranged on the front surface of the wire feeding large gear;

the line rotating mechanism comprises a line rotating motor gear and a line rotating transfer gear which are meshed with each other, a line rotating bearing seat is fixed on the front surface of the line rotating transfer gear, the line rotating transfer gear is connected with the line rotating bearing seat through a line rotating bearing on a front cover of the rear wallboard, and a line rotating large gear is fixed on the line rotating bearing seat.

In the scheme, the wire feeding bevel gear is fixed on the rear wall plate through a second wire feeding bearing, a wire feeding front bearing and a snap spring are sequentially arranged between the second wire feeding bearing and the wire feeding bevel gear, wire feeding middle bearings are sleeved at two ends of the wire feeding front bearing, and a bearing gasket is arranged between the wire feeding front bearing and the wire feeding bevel gear.

In the scheme, the wire feeding bearing seat is sleeved with the wire feeding bearing, and the wire feeding bearing seat is fixed on the front surface of the rear wallboard through a rear wallboard bearing seat and a first oil seal ring which are sleeved on the wire feeding bearing seat.

In the scheme, the rear wall board is formed by fixing the rear wall board front cover and the rear wall board rear cover through bolts, the rear wall board rear cover is respectively provided with the wire feeding servo motor and the wire transferring servo motor, and the wire feeding motor base and the wire transferring motor base are respectively fixed on the rear wall board rear cover.

In the scheme, a wire feeding motor gear bearing and an outer snap spring are sequentially arranged on a wire feeding motor gear, a wire rotating motor gear bearing is arranged on a wire rotating motor gear,

in the scheme, the two ends of the wire feeding supporting shaft are provided with the supporting shaft sleeves, a second oil seal ring is arranged between the wire feeding supporting shaft and the wire feeding large gear, and an inner snap spring is arranged between the wire rotating large gear and the wire rotating transfer gear.

In the scheme, a conveying shaft for conveying the steel wire into the wire conveying box is arranged in the rear wall plate, one end of the conveying shaft is provided with a straightener joint connected with a straightener, and the other end of the conveying shaft is positioned in the wire conveying box.

Compared with the prior art, the utility model discloses, send line mechanism to include that intermeshing send line motor gear and send line transfer gear, send line transfer gear's front surface to be fixed with to send the line bearing frame, send line transfer gear and send the line bearing frame to be connected to the rear wall board through first sending the line bearing, send line transfer gear to send the line gear wheel through sending line back shaft connection, send the front surface of line gear wheel to be equipped with to send the line bevel gear. The line transferring mechanism comprises a line transferring motor gear and a line transferring transfer gear which are meshed with each other, a line transferring bearing seat is fixed on the front surface of the line transferring transfer gear, the line transferring transfer gear and the line transferring bearing seat are connected to the front cover of the rear wall plate through a line transferring bearing, and a line transferring large gear is fixed on the line transferring bearing seat. The wire feeding mechanism is arranged on the wall plate and is transmitted into the wire feeding box body through the wire feeding bevel gear, the structure is simple, the operation is convenient, the stability is improved, and the working efficiency and the working precision are improved; the load of the box body during rotation is reduced, and the safety is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic diagram of the split decoupling strands of the present invention;

FIG. 3 is a schematic view of the wire feeding mechanism of the present invention;

fig. 4 is a schematic view of the transfer line mechanism of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 4 is:

the wire feeding mechanism comprises a rear wall plate 100, a straightener joint 110, a first oil seal ring 111, a rear wall plate rear cover 120, a rear wall plate front cover 130, a wire rotating gearwheel 140, a wire transferring gearwheel 150, a wire feeding transfer gearwheel 160, a wire feeding gearwheel 170, a rear wall plate bearing seat 112, a wire feeding bearing 113, a second oil seal ring 121, a supporting shaft sleeve 122, a bearing washer 123, a wire feeding middle bearing 124, a second wire feeding bearing 125, a wire feeding front bearing 126, a snap spring 127, a wire feeding bevel gear 128, a wire feeding supporting shaft 129, a wire feeding bearing seat 131, a first wire feeding bearing 132, a wire rotating gearwheel 140, an inner snap spring 141, a rotating shaft bearing seat 151, a wire rotating bearing 152, a wire feeding servo motor 200, a wire feeding motor seat 210, a wire feeding motor gear 220, an outer snap spring 221, a wire feeding motor gear bearing 222, a wire rotating servo motor 300, a wire rotating motor seat 310, a wire rotating motor gear 320 and a wire rotating motor gear bearing 321.

Detailed Description

The utility model provides a computer coiling machine send line change drive mechanism to simple structure, convenient operation improves transmission stationarity, improves work efficiency and work precision. The invention is described in detail below with reference to the drawings and the detailed description.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the utility model provides a computer coiling machine wire feeding and transferring transmission mechanism, which comprises:

the wire feeding mechanism comprises a wire feeding motor gear 220 and a wire feeding transfer gear 160 which are meshed with each other, a wire feeding bearing seat 131 is fixed on the front surface of the wire feeding transfer gear 160, the wire feeding transfer gear 160 and the wire feeding bearing seat 131 are connected to the rear wall plate 100 through a first wire feeding bearing 132, the wire feeding transfer gear 160 is connected with a wire feeding large gear 170 through a wire feeding support shaft 129, and a wire feeding bevel gear 128 is arranged on the front surface of the wire feeding large gear 170.

The line rotating mechanism comprises a line rotating motor gear 320 and a line rotating transfer gear 150 which are meshed with each other, a line rotating shaft bearing seat 151 is fixed on the front surface of the line rotating transfer gear 150, the line rotating transfer gear 150 and the line rotating bearing seat 151 are connected to the rear wall plate through a line rotating bearing 152, and a line rotating large gear 140 is fixed on the line rotating shaft bearing seat 151;

the wire feeding bevel gear 128 is fixed on the back wall plate 100 through a second wire feeding bearing 125, a wire feeding front bearing 126 and a snap spring 127 are sequentially arranged between the second wire feeding bearing 125 and the wire feeding bevel gear 128, a wire feeding middle bearing 124 is sleeved at two ends of the wire feeding front bearing 126, and a bearing washer 123 is arranged between the wire feeding front bearing 126 and the wire feeding bevel gear 128.

The wire feeding bearing seat 129 is sleeved with the wire feeding bearing 113 and then fixed on the front surface of the rear wall plate through the rear wall plate bearing seat 112 and the first oil seal ring 111 which are sleeved on the wire feeding bearing 113.

The rear wall panel 100 is composed of a front rear wall panel cover 130 and a rear wall panel cover 120 which are fixed by bolts, a wire feeding servo motor 200 and a wire transferring servo motor 300 are respectively arranged on the rear wall panel cover 120 and are respectively fixed on the rear wall panel cover 120 through a wire feeding motor base 210 and a wire transferring motor base 310, the working power of the wire feeding servo motor is respectively transmitted to a wire transferring transfer gear 150 and a wire feeding middle gear 130 through a wire transferring motor gear 320 and a wire feeding motor gear 220, and then is respectively transmitted to a wire transferring large gear 140 and a wire feeding large gear 170 through the wire transferring middle gear 150 and the wire feeding middle gear 130.

The wire feeding motor gear 220 is sequentially provided with a wire feeding motor gear bearing 222 and an outer snap spring 221, the wire rotating motor gear 320 is provided with a wire rotating motor gear bearing 321,

two ends of the wire feeding supporting shaft 129 are provided with supporting shaft sleeves 122, a second oil seal ring 121 is arranged between the wire feeding supporting shaft 129 and the wire feeding big gear 170, and an inner snap spring 141 is arranged between the wire rotating big gear 140 and the wire rotating transfer gear 150.

A conveying shaft for conveying the steel wires into the wire feeding box is arranged in the rear wall plate 100, one end of the conveying shaft is provided with a straightener joint 110 connected with a straightener, and the other end of the conveying shaft is positioned in the wire feeding box.

The utility model discloses a method of use (working process) as follows:

the wire feeding servo motor 200 and the wire transferring servo motor 300 respectively drive the wire feeding motor gear 220 and the wire transferring motor gear 320 to rotate after receiving the instruction of the computer spring machine control system, and the rotation of the gears drives the rotation of the wire feeding and wire transferring transfer gears, so that the rotation of the wire feeding and wire transferring large gears is driven; the wire rotating big gear wheel rotates to drive the wire feeding box body to rotate so as to achieve the wire rotating result; the rotation of the wire feeding big gear wheel 170 drives the rotation of the wire feeding bevel gear 128 to drive the bevel gear in the wire feeding box body to rotate, thereby driving the wire feeding shaft in the wire feeding box body to achieve the purpose of wire feeding; the wire transfer and the wire feeding are operated independently without interference, so that different springs are machined.

Compared with the prior art, the utility model discloses, send line mechanism to include that intermeshing send line motor gear and send line transfer gear, send line transfer gear's front surface to be fixed with to send the line bearing frame, send line transfer gear and send the line bearing frame to be connected to the rear wall board through first sending the line bearing, send line transfer gear to send the line gear wheel through sending line back shaft connection, send the front surface of line gear wheel to be equipped with to send the line bevel gear. The line transferring mechanism comprises a line transferring motor gear and a line transferring transfer gear which are meshed with each other, a line transferring bearing seat is fixed on the front surface of the line transferring transfer gear, the line transferring transfer gear and the line transferring bearing seat are connected to the front cover of the rear wall plate through a line transferring bearing, and a line transferring large gear is fixed on the line transferring bearing seat. The wire feeding mechanism is arranged on the wall plate and is transmitted into the wire feeding box body through the wire feeding bevel gear, the structure is simple, the operation is convenient, the stability is improved, and the working efficiency and the working precision are improved; the load of the box body during rotation is reduced, and the safety is improved.

The present invention is not limited to the above-mentioned best mode, and any person should learn the mechanism change made under the teaching of the present invention, all with the present invention has the same or similar technical solution, all fall into the protection scope of the present invention.

Claims (7)

1. The utility model provides a computer coiling machine send line change drive mechanism, includes the back wallboard, the back wallboard includes lid behind the wallboard protecgulum of back through bolted connection and the wallboard of back, its characterized in that still includes:

the wire feeding mechanism comprises a wire feeding motor gear and a wire feeding transfer gear which are meshed with each other, wherein a wire feeding bearing seat is fixed on the front surface of the wire feeding transfer gear, the wire feeding transfer gear and the wire feeding bearing seat are connected to the rear wall plate through a first wire feeding bearing, the wire feeding transfer gear is connected with a wire feeding large gear through a wire feeding support shaft, and a wire feeding bevel gear is arranged on the front surface of the wire feeding large gear;

the line rotating mechanism comprises a line rotating motor gear and a line rotating transfer gear which are meshed with each other, a line rotating bearing seat is fixed on the front surface of the line rotating transfer gear, the line rotating transfer gear is connected with the line rotating bearing seat through a line rotating bearing on a front cover of the rear wallboard, and a line rotating large gear is fixed on the line rotating bearing seat.

2. The wire feeding and rotating transmission mechanism of the computer spring machine as claimed in claim 1, wherein the wire feeding bevel gear is fixed on the rear wall plate through a second wire feeding bearing, a wire feeding front bearing and a snap spring are sequentially arranged between the second wire feeding bearing and the wire feeding bevel gear, a wire feeding middle bearing is sleeved at two ends of the wire feeding front bearing, and a bearing washer is arranged between the wire feeding front bearing and the wire feeding bevel gear.

3. The wire feeding and rotating transmission mechanism of a computer spring machine as claimed in claim 1, wherein the wire feeding bearing seat is sleeved with a wire feeding bearing, and the wire feeding bearing seat is fixed on the front surface of the rear wall plate through a rear wall plate bearing seat and a first oil seal ring which are sleeved on the wire feeding bearing seat.

4. The wire feeding and rotating transmission mechanism of a computer spring machine as claimed in claim 1, wherein the rear wall plate is composed of a front cover of the rear wall plate and a rear cover of the rear wall plate which are fixed by bolts, and the rear cover of the rear wall plate is respectively provided with a wire feeding servo motor and a wire rotating servo motor which are respectively fixed on the rear cover of the rear wall plate through a wire feeding motor base and a wire rotating motor base.

5. The wire feeding and rotating transmission mechanism of the computer coiling machine as claimed in claim 1, wherein a wire feeding motor gear bearing and an outer snap spring are sequentially arranged on a wire feeding motor gear, and a wire rotating motor gear bearing is arranged on a wire rotating motor gear.

6. The wire feeding and rotating transmission mechanism of a computer spring machine as claimed in claim 1, wherein two ends of the wire feeding supporting shaft are provided with supporting shaft sleeves, a second oil seal ring is arranged between the wire feeding supporting shaft and the wire feeding gearwheel, and an inner snap spring is arranged between the wire rotating gearwheel and the wire rotating transfer gear.

7. The wire feeding and rotating transmission mechanism of a computer coiling machine as claimed in claim 1, wherein a conveying shaft for conveying steel wires into a wire feeding box is arranged in the rear wall plate, one end of the conveying shaft is provided with a straightener joint connected with a straightener, and the other end of the conveying shaft is positioned in the wire feeding box.

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