CN109465346B

CN109465346B - High temperature sensor protective sheath necking machine

Info

Publication number: CN109465346B
Application number: CN201811613737.5A
Authority: CN
Inventors: 刘长华; 万克金; 姜建; 徐陆
Original assignee: NANCHANG GONGKONG ELECTRICAL ASSEMBLE CO Ltd
Current assignee: NANCHANG GONGKONG ELECTRICAL ASSEMBLE CO Ltd
Priority date: 2018-12-27
Filing date: 2018-12-27
Publication date: 2024-02-13
Anticipated expiration: 2038-12-27
Also published as: CN109465346A

Abstract

The utility model provides a high temperature sensor protective sheath necking machine, includes well planker, big planker, board guide rail, main shaft and quick anchor clamps, main shaft one end is connected the spindle motor through a set of belt pulley structure, and the other end is installed on the main shaft seat; the quick clamp is fixedly arranged on the main shaft seat; a synchronizing wheel AII is arranged between the belt pulley and the main shaft seat, the synchronizing wheel AII is connected with a synchronizing wheel AII through a synchronizing belt A, the synchronizing wheel AII is connected with a synchronizing wheel BI through a synchronizing linkage shaft, and the synchronizing wheel BI is connected with a synchronizing wheel BII through a synchronizing belt B; the synchronous wheel BII is connected with the circuit groove and the circuit barrel through the connecting rod; the large carriage is arranged on the machine table guide rail; the middle carriage is arranged on the large carriage; the large carriage is powered by a swing motor; the middle carriage is powered by a pulling and pressing cylinder. The invention has the advantages that cracks can not be generated on the surface of the processing protective sleeve, the sensor can be connected with a circuit for processing together, the clamping is convenient, and the product percent of pass is high.

Description

High temperature sensor protective sheath necking machine

Technical Field

The invention relates to the technical field of armor wire production and processing, in particular to a high-temperature sensor protective sleeve necking machine.

Background

The highest emission temperature of the automobile can reach 800 ℃, and in order to ensure the reliability and the light weight of the sealing, the sensor for detection is required to adopt a process of deforming and necking the sealing of the metal protective sleeve on the packaging as much as possible. However, the metal protective sleeve often has cracks during deep rolling shrinkage, and the quality of the product is affected. And the common detection sensors are all connected by lines, so that the phenomenon that the lines are separated from the sensors easily occurs when the rotation necking is performed.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, provides a high-temperature sensor protective sleeve necking machine, and solves the problems that a metal protective sleeve is cracked and is easy to separate from a sensor wire when being subjected to deep rolling necking.

According to the high-temperature sensor protective sleeve necking machine, after a sensor is fixedly clamped on a quick clamp, a wire is placed into a wire protection tube and a wire protection tube, a starting switch is pressed down, a spindle motor drives a spindle to rotate at a high speed, and the wire protection tube synchronously rotates under the action of a synchronous wheel. Meanwhile, the middle carriage is pulled by the pulling and pressing cylinder, the roller rolls the metal protective sleeve, meanwhile, the swing motor works, and the eccentric wheel drives the connecting rod to swing the large carriage back and forth in a small range. When the rolling degree sensor contacts the middle carriage, the middle carriage stops feeding, the roller is not aligned to the thin Guan Shiya any more, the pulling and pressing cylinder returns, the roller resets, the spindle motor drives the spindle to rotate in a decelerating manner, the spindle motor speed is reduced to a low speed, when the stop signal baffle is aligned to the signal sensor, the frequency converter brakes, and at the moment, the quick clamp and the opening of the line through groove are both positioned upwards, so that the next sensor is convenient to clamp.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a high temperature sensor protective sheath necking machine, includes well planker, big planker, board guide rail, shaping gyro wheel, main shaft (23) and quick anchor clamps, main shaft one end is connected the main shaft motor through a set of transmission structure, and the other end is installed on the main shaft seat; the quick clamp is fixedly arranged on the main shaft seat; a synchronizing wheel AII is arranged between the transmission structure and the main shaft seat, the synchronizing wheel AII is connected with a synchronizing wheel AII through a synchronizing belt A, the synchronizing wheel AII is connected with a synchronizing wheel BI through a synchronizing linkage shaft, and the synchronizing wheel BI is connected with a synchronizing wheel BII through a synchronizing belt B; the synchronous wheel BII is connected with the circuit tube and the circuit tube through the connecting rod; the large carriage is arranged on the machine table guide rail; the side surface of one end of the large carriage is connected with an eccentric wheel through a linkage rod; the eccentric wheel is connected with the swing motor; a middle carriage guide rail is arranged in the middle of the large carriage; the middle carriage is arranged on the middle carriage guide rail; one end of the middle carriage is connected with the pulling and pressing cylinder through a pulling and pressing cylinder pull rod, and the middle carriage can be controlled to slide along the middle carriage guide rail; the large carriage is fixedly provided with a rolling degree sensor; the forming roller is arranged on the middle carriage; a photoelectric sensor is fixedly arranged on the spindle seat; and a parking signal baffle is fixedly arranged on the synchronous wheel AI.

Further, an adjusting mechanism A is arranged between the rolling degree sensor and the large carriage, and can adjust the extending length of the rolling degree sensor.

Further, an adjusting mechanism B is arranged between the forming roller and the middle carriage, and the angle of the forming roller can be adjusted.

Further, the transmission structure between the main shaft and the main shaft motor is a belt pulley structure; the belt pulley structure consists of a belt pulley A, a transmission belt and a belt pulley B; the belt pulley A is arranged on the main shaft; the belt pulley B is arranged on the spindle motor; the transmission belt is connected with the belt pulley A and the belt pulley B.

Further, a line through groove is formed in the line pipe.

Further, the centers of the main shaft, the circuit tube and the synchronous wheel BII are all positioned on the same straight line.

Further, an adjusting mechanism C is arranged between the quick clamp and the spindle seat, and can adjust the position of the quick clamp.

This high temperature sensor protective sheath necking machine does not produce the crackle when rolling to high temperature sensor metal protective sheath, has improved the qualification rate of product processing, and the clamping is convenient, and production efficiency is high, and sensor and circuit synchronous revolution can not take place the problem that sensor wire breaks away from with the sensor.

Drawings

FIG. 1 is a schematic view of the apparatus of the present invention;

FIG. 2 is a schematic diagram of a high temperature sensor according to the present invention;

FIG. 3 is an external view of a device model structure according to the present invention;

FIG. 4 is an external view of another view angle structure of the device model of the present invention;

in the figure: 1. the device comprises a drawing and pressing cylinder, 2, an adjusting mechanism A,3, a rolling degree sensor, 4, a swinging motor, 5, an eccentric wheel, 6, a linkage rod, 7, a line passing groove, 8, a line pipe, 9, a line cylinder, 10, a synchronous wheel BII, 11, a synchronous belt B,12, a synchronous wheel BI, 13, a sensor wire, 14, a metal protective sleeve, 15, a forming roller, 16, an adjusting mechanism B,17, a quick clamp, 18, a middle carriage, 19, a synchronous linkage shaft, 20, a synchronous wheel AII, 21, a synchronous belt A,22, a belt pulley A,23, a main shaft, 24, a synchronous wheel AI, 25, a main shaft seat, 26, a driving belt, 27, a stopping signal baffle, 28, a photoelectric sensor, 29, a belt pulley B,30, a main shaft motor, 31, an adjusting mechanism C,32, a machine table guide rail, 33, a large carriage, 34, a middle carriage guide rail, 35 and a drawing and pressing cylinder pull rod.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

The high-temperature sensor protective sleeve necking machine shown in fig. 1-4 comprises a middle carriage 18, a large carriage 33, a machine table guide rail 32, a forming roller 15, a main shaft 23 and a quick clamp 17, wherein one end of the main shaft 23 is connected with a main shaft motor 30 through a group of transmission structures, and the other end of the main shaft 23 is arranged on a main shaft seat 25; the quick clamp 17 is fixedly arranged on the spindle seat 25; a synchronizing wheel AII 24 is arranged between the transmission structure and the main shaft seat 25, the synchronizing wheel AII 24 is connected with a synchronizing wheel AII 20 through a synchronizing belt A21, the synchronizing wheel AII 20 is connected with a synchronizing wheel BI 12 through a synchronizing linkage shaft 19, and the synchronizing wheel BI 12 is connected with a synchronizing wheel BII 10 through a synchronizing belt B11; the synchronous wheel BII 10 is connected with the circuit tube 8 and the circuit tube 9 through connecting rods; the large carriage 33 is mounted on the machine guide rail 32; the side surface of one end of the large carriage 33 is connected with the eccentric wheel 5 through the linkage rod 6; the eccentric wheel 5 is connected with the swing motor 4; a middle carriage guide rail 34 is arranged in the middle of the large carriage 33; the middle carriage 18 is mounted on the middle carriage rail 34; one end of the middle carriage 18 is connected with the pulling and pressing cylinder 1 through a pulling and pressing cylinder pull rod 35, and the middle carriage 18 can be controlled to slide along a middle carriage guide rail 34; the large carriage 33 is fixedly provided with a rolling degree sensor 3; the forming roller 15 is arranged on the middle carriage 18; a photoelectric sensor 28 is fixedly arranged on the spindle seat 25; a stop signal baffle 27 is fixedly mounted on the synchronizing wheel ai 24.

Preferably, an adjusting mechanism A2 is arranged between the rolling degree sensor 3 and the large carriage 33, so as to adjust the extending length of the rolling degree sensor 3; an adjusting mechanism B16 is arranged between the forming roller 15 and the middle carriage 18, and can adjust the angle of the forming roller 15; the transmission structure between the main shaft 23 and the main shaft motor 30 is a belt pulley structure; the belt pulley structure consists of a belt pulley A22, a transmission belt 26 and a belt pulley B29; the belt pulley A is mounted on the main shaft 23; the belt pulley B29 is mounted on the spindle motor 30; the transmission belt 26 connects the belt pulley A22 with the belt pulley B29; the circuit tube 8 is provided with a circuit passing groove 7; the centers of the main shaft 23, the circuit tube 8, the circuit tube 9 and the synchronous wheel BII 10 are all positioned on the same straight line; an adjusting mechanism C31 is installed between the quick clamp 17 and the spindle seat 25, so as to adjust the position (such as axial position) of the quick clamp 17.

When the invention works, the sensor is fixedly clamped on the quick clamp 17, the sensor wire 13 is put into the circuit tube 8 and the circuit tube 9, the starting switch is pressed down, the spindle motor 30 drives the spindle 23 to rotate at a high speed, and the circuit tube 8 synchronously rotates under the action of the synchronous wheel. Meanwhile, the pulling and pressing cylinder 1 pulls the middle carriage 18, the forming roller 15 rolls the metal protective sleeve 14, the swinging motor 4 works, and the eccentric wheel 5 drives the connecting rod 6 to swing the large carriage 33 back and forth in a small range. When the rolling degree sensor 3 contacts the middle carriage 18, the pulling and pressing cylinder 1 stops feeding of the middle carriage 18, the forming roller 15 does not press the metal protective sleeve 14 any more, the pulling and pressing cylinder 1 returns, the forming roller 15 resets, the spindle motor 30 drives the spindle 23 to rotate in a decelerating manner, when the spindle motor speed is reduced to a low speed gear, when the stop signal baffle 27 is aligned with the photoelectric sensor 28, the frequency converter brakes, and at the moment, the quick clamp 17 and the opening of the line through groove 7 on the line pipe 8 are both in upward positions, so that the next sensor is convenient to clamp.

According to the high-temperature sensor protective sleeve necking machine, when the forming roller 15 rolls the metal protective sleeve 14, the eccentric wheel 5 drives the connecting rod 6 to enable the large carriage 33 to swing back and forth in a small range, the forming roller 15 does not always act on the same point of the metal protective sleeve 14, after rolling is finished, cracks are not generated on the surface of the metal protective sleeve 14, meanwhile, the sensor and the sensor wire 13 synchronously rotate, the problem that the sensor wire 13 is separated from the sensor is avoided, and the qualification rate of product processing is improved. On the other hand, the design of the parking signal baffle 27 and the photoelectric sensor 28 can enable the openings of the quick clamp 17 and the line passing groove 7 on the line pipe 8 to be in the upward position when parking each time, so that the next sensor is convenient to clamp, the clamping is convenient, and the production efficiency is improved.

The above-described embodiments are illustrative of the present invention and are not intended to be limiting, and it is to be understood that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.

Claims

1. The utility model provides a high temperature sensor protective sheath necking machine, it includes well planker (18), big planker (33), board guide rail (32), shaping gyro wheel (15), main shaft (23) and quick anchor clamps (17), main shaft (23) one end is connected spindle motor (30) through a set of transmission structure, and the other end is installed on spindle support (25); the quick clamp (17) is fixedly arranged on the spindle seat (25); a synchronizing wheel AII (24) is arranged between the transmission structure and the main shaft seat (25), the synchronizing wheel AII (24) is connected with a synchronizing wheel AII (20) through a synchronizing belt A (21), the synchronizing wheel AII (20) is connected with a synchronizing wheel BI (12) through a synchronizing linkage shaft (19), and the synchronizing wheel BI (12) is connected with a synchronizing wheel BII (10) through a synchronizing belt B (11); the synchronous wheel BII (10) is connected with the circuit tube (8) and the circuit tube (9) through the connecting rod; the large carriage (33) is arranged on the machine guide rail (32); one end side surface of the large carriage (33) is connected with the eccentric wheel (5) through the linkage rod (6); the eccentric wheel (5) is connected with the swing motor (4); a middle carriage guide rail (34) is arranged in the middle of the large carriage (33); the middle carriage (18) is mounted on the middle carriage guide rail (34); one end of the middle carriage (18) is connected with the pulling and pressing cylinder (1) through a pulling and pressing cylinder pull rod (35), and the middle carriage (18) can be controlled to slide along a middle carriage guide rail (34); the large carriage (33) is fixedly provided with a rolling degree sensor (3); the forming roller (15) is arranged on the middle carriage (18); a photoelectric sensor (28) is fixedly arranged on the main shaft seat (25); a parking signal baffle (27) is fixedly arranged on the synchronous wheel AI (24);

an adjusting mechanism A (2) is arranged between the rolling degree sensor (3) and the large carriage (33), and can adjust the extension length of the rolling degree sensor (3); an adjusting mechanism B (16) is arranged between the forming roller (15) and the middle carriage (18) and can adjust the angle of the forming roller (15); the transmission structure between the main shaft (23) and the main shaft motor (30) is a belt pulley structure; the belt pulley structure consists of a belt pulley A (22), a transmission belt (26) and a belt pulley B (29); the belt pulley A is arranged on the main shaft (23); the belt pulley B (29) is arranged on the spindle motor (30); the transmission belt (26) connects the belt pulley A (22) with the belt pulley B (29); a circuit through groove (7) is formed in the circuit pipe (8); the centers of the main shaft (23), the circuit tube (8), the circuit tube (9) and the synchronous wheel BII (10) are all positioned on the same straight line.

2. The high-temperature sensor protective sleeve necking machine according to claim 1, characterized in that an adjusting mechanism C (31) is installed between the quick clamp (17) and the spindle seat (25), and can adjust the position of the quick clamp (17).