CN211915354U

CN211915354U - High-efficient threading machine

Info

Publication number: CN211915354U
Application number: CN202020083228.2U
Authority: CN
Inventors: 李明胜
Original assignee: Lingcheng Lingda Machinery Equipment Manufacturing Co ltd
Current assignee: Lingcheng Lingda Machinery Equipment Manufacturing Co ltd
Priority date: 2020-01-15
Filing date: 2020-01-15
Publication date: 2020-11-13
Anticipated expiration: 2030-01-15

Abstract

The utility model discloses a high-efficiency threading machine, which comprises a threading machine body; a main motor; the cup body supporting clamp is arranged on the body and can rotate; the pressing device is arranged on the body and can move longitudinally, the pressing device further comprises a large thread die and a small thread die which are arranged on the body and can move transversely and rotate, the main motor drives the large thread die, the small thread die and the cup body clamping die to rotate simultaneously through a group of linkage mechanisms, the large thread die and the small thread die simultaneously press threads relative to a cup body on the cup body supporting clamp, and the rotation directions of the large thread die and the small thread die are opposite. The single motor drives the large thread die, the small thread die and the cup body clamping die to rotate simultaneously through a group of linkage mechanisms, the large thread die and the small thread die are pressed close to the cup body to be processed simultaneously to press the threads of the cup body, double threads are pressed synchronously, and production efficiency is greatly improved.

Description

High-efficient threading machine

Technical Field

The utility model belongs to the technical field of thermos cup processing equipment technique and specifically relates to a high-efficient threading machine is related to.

Background

The threading machine is mainly used for pressing threads at the front end of a round pipe and mainly aims at a cup mouth of a vacuum cup, a bottle cap, an oil barrel cover, a medical bottle cap, a small gas bottle cap, a plastic pipe, lamp decorations, a lamp holder, a flashlight, a cigarette lighter and the like. The threading machine can work through a mechanical system and a hydraulic system, and the processed product has high quality and is a preferred machine type for processing the cup rim of the vacuum cup.

At present, a plurality of vacuum cups on the market adopt a double-thread structure with a circle of big threads and a circle of small threads, and the vacuum cup with the shape has better sealing performance when the cup cover is locked. In the prior art, the processing of a double-thread structure is generally divided into two-time thread press mounting, a large thread is pressed firstly, and a small thread is pressed later, so that the operation is complicated, and the production efficiency is low. Due to the above problems, there is a need for improvement.

Disclosure of Invention

The utility model provides a to prior art not enough, the utility model provides a high-efficient threading machine, compact structure, convenient operation is swift, can realize that an equipment carries out suppression when two screw threads to the thermos cup rim of a cup, saves the twice process as one process, has promoted production efficiency greatly.

The utility model provides a technical scheme that its technical problem adopted is: an efficient threading machine comprises a threading machine body; a main motor; the cup body supporting clamp is arranged on the body and can rotate; the pressing device is arranged on the body and can move longitudinally, the pressing device further comprises a large thread die and a small thread die which are arranged on the body and can move transversely and rotate, the main motor drives the large thread die, the small thread die and the cup body supporting clamp to rotate simultaneously through a group of linkage mechanisms, the large thread die and the small thread die simultaneously press threads relative to a cup body on the cup body supporting clamp, and the rotation directions of the large thread die and the small thread die are opposite.

In the above technical scheme, further, the thread cutting device comprises a first gear set, a second gear set and a third gear set, wherein the first gear set is connected with the second gear set, the second gear set is connected with the third gear set, the main motor drives the first gear set to rotate, the first gear set drives the second gear set and the third gear set to rotate, the second gear set drives the large thread die to rotate, and the third gear set drives the small thread die to rotate.

In the above technical solution, further, the first gear set and the second gear set are connected by a universal coupling or a gear shaft; the second gear set and the third gear set are connected through a universal coupling or a gear shaft.

In the above technical solution, further, the first gear set and the second gear set are connected by a universal coupling; the second gear set and the third gear set are connected through a gear shaft.

In the above technical scheme, further, the first gear set includes a motor gear, a clamp gear and a first linkage gear, the gear ratio of the motor gear is the same as that of the clamp gear, the motor gear is meshed with the clamp gear, the clamp gear is meshed with the first linkage gear, the main motor drives the motor gear to rotate, the clamp gear drives the cup body to support the clamp to rotate, and the first linkage gear is connected with the second gear set.

In the above technical scheme, further, the second gear set includes a second linkage gear, a large thread die gear and a third linkage gear with the same gear ratio, the second linkage gear is meshed with the large thread die gear, the large thread die gear is meshed with the third linkage gear, the large thread die gear drives the large thread die to rotate, the second linkage gear is connected with the first gear set, and the third linkage gear is connected with the third gear set.

In the above technical scheme, further, the third gear set includes a fourth linkage gear, a fifth linkage gear and a small thread die gear, the fourth linkage gear is meshed with the fifth linkage gear, the fifth linkage gear is meshed with the small thread die gear, the gear ratio of the fourth linkage gear to the large thread die gear is the same, and the gear ratio of the fifth linkage gear to the small thread die gear to the fourth linkage gear is 1: 2.

In the above technical solution, further, the tooth ratio of the small thread die gear to the large thread die gear is 1: 2.

In the above technical scheme, further, a movable table connected in a transverse sliding manner is further arranged on the body, the large thread die and the small thread die are respectively connected to the independent movable table in a rotating manner, and the movable table is provided with an independent driving mechanism for driving the large thread die and the small thread die to be close to or far away from the cup body supporting clamp.

In the above technical solution, further, the driving mechanism is an oil cylinder.

The utility model has the advantages that: the single motor drives the large thread die, the small thread die and the cup body supporting clamp to rotate simultaneously through a group of linkage mechanisms, the large thread die and the small thread die are pressed close to the cup body to be processed simultaneously to press the threads of the cup body, double threads are pressed synchronously, and production efficiency is greatly improved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is another angle structure diagram of the present invention.

In the drawing, 1, a body, 2, a main motor, 3, a pressing device, 4, a cup supporting clamp, 5, a large thread die, 6, a small thread die, 7, a first gear set, 71, a motor gear, 72, a clamp gear, 73, a first linkage gear, 8, a second gear set, 81, a second linkage gear, 82, a large thread die gear, 83, a third linkage gear, 9, a third gear set, 91, a fourth linkage gear, 92, a fifth linkage gear, 93, a small thread die gear, 10, a universal coupling, 11, a gear shaft, 12, a movable table, 13, an air cylinder and 14, an oil cylinder.

Detailed Description

Referring to fig. 1-2, a high-efficiency threading machine includes a threading machine body 1; a main motor 2; a cup body supporting clamp 4 which is arranged on the body 1 and can rotate; the pressing device 3 is arranged on the body 1 and can move longitudinally, the pressing device further comprises a large thread die 5 and a small thread die 6 which are arranged on the body 1 and can move transversely and rotate, a movable table 12 connected with the body 1 in a transverse sliding mode is further arranged on the body, the large thread die 5 and the small thread die 6 are respectively connected onto the independent movable table 12 in a rotating mode, and an independent oil cylinder 14 is arranged on the movable table 12 and drives the large thread die 5 and the small thread die 6 to be close to or far away from the cup body supporting clamp 4. The main motor 2 drives the large thread die 5, the small thread die 6 and the cup body supporting clamp to rotate simultaneously through a group of linkage mechanisms, the large thread die 5 and the small thread die 6 simultaneously press threads on the cup body supporting clamp 4, and the rotation directions of the large thread die 5 and the small thread die 6 are opposite.

The thread forming machine comprises a first gear set 7, a second gear set 8 and a third gear set 9, wherein the first gear set 7 is connected with the second gear set 8, the second gear set 8 is connected with the third gear set 9, the main motor 2 drives the first gear set 7 to rotate, the first gear set 7 drives the second gear set 8 and the third gear set 9 to rotate, the second gear set 8 drives the large thread die 5 to rotate, the third gear set 9 drives the small thread die 6 to rotate, and the first gear set 7 is connected with the second gear set 8 through a universal coupling 10; the second gear set 8 and the third gear set 9 are connected through a gear shaft 11.

Further, the first gear set 7 includes a motor gear 71, a clamp gear 72, and a first linkage gear 73, which have the same gear ratio, the motor gear 71 is engaged with the clamp gear 72, the clamp gear 72 is engaged with the first linkage gear 73, the main motor 2 drives the motor gear 71 to rotate, the clamp gear 72 drives the cup support clamp 4 to rotate, and the first linkage gear 73 is connected with the second gear set 8. The second gear set 8 comprises a second linkage gear 81, a large thread die gear 82 and a third linkage gear 83 with the same tooth ratio, the second linkage gear 81 is meshed with the large thread die gear 82, the large thread die gear 82 is meshed with the third linkage gear 83, the large thread die gear 82 drives the large thread die 5 to rotate, the second linkage gear 81 is connected with the first gear set 7, and the third linkage gear 83 is connected with the third gear set 9. The third gear set 9 includes a fourth linkage gear 91, a fifth linkage gear 92 and a small thread die gear 93, the fourth linkage gear 91 is meshed with the fifth linkage gear 92, the fifth linkage gear 92 is meshed with the small thread die gear 93, the gear ratio of the fourth linkage gear 91 to the large thread die gear 82 is the same, and the gear ratio of the fifth linkage gear 92, the small thread die gear 93 to the fourth linkage gear 91 is 1: 2.

The utility model discloses a working process: the cup body to be processed is placed on the cup body supporting clamp 4, the pressing device 3 is pushed through the air cylinder 13 above the cup body to position the upper portion of the cup body, then the main motor 2 installed on the lower portion of the screw machine body 1 is started to drive the motor gear 71 to rotate, the motor gear 71 drives the clamp gear 72 to rotate, and the clamp gear 72 drives the cup body supporting clamp 4 arranged above the motor to rotate and simultaneously drives the first linkage gear 73 to rotate. The first linkage gear 73 drives the second linkage gear 81 to rotate through the universal joint 10, the second linkage gear 81 drives the large thread die gear 82 to rotate, and the large thread die gear 82 drives the large thread die 5 to rotate and simultaneously drives the third linkage gear 83 to rotate. The third linkage gear 83 is coaxially connected with the fourth linkage gear 91, and the fourth linkage gear 91 drives the fifth linkage gear 92 and the small thread die gear 93 to do acceleration movement. At this time, the large thread die 5, the small thread die 6 and the cup body supporting jig 4 rotate simultaneously, the large thread die 5 and the small thread die 6 rotate in opposite directions, and the movable table 12 is driven by the oil cylinder 14 to enable the large thread die 5 and the small thread die 6 to approach and extrude the cup body to be machined on the cup body supporting jig 4 to press threads.

The above is only an embodiment of the present invention, and is not a limitation to the present invention in any form, and the present invention does not depart from the technical solution of the present invention, and the simple modification, equivalent change or modification made by the present invention all fall into the protection scope of the present invention.

Claims

1. An efficient threading machine comprises a threading machine body; a main motor; the cup body supporting clamp is arranged on the body and can rotate; set up on the body and can vertically the closing device of activity, its characterized in that: the cup body supporting clamp is characterized by further comprising a large thread die and a small thread die which are arranged on the body and can transversely displace and rotate, the main motor drives the large thread die, the small thread die and the cup body supporting clamp to simultaneously rotate through a group of linkage mechanisms, the large thread die and the small thread die simultaneously press threads for the cup body on the cup body supporting clamp, and the rotating directions of the large thread die and the small thread die are opposite.

2. A high efficiency threading machine as defined in claim 1, wherein: the cup body is characterized in that a movable table which is connected in a transverse sliding mode is further arranged on the body, the large thread die and the small thread die are respectively connected to the independent movable table in a rotating mode, and an independent driving mechanism is arranged on the movable table and drives the large thread die and the small thread die to be close to or far away from the cup body supporting clamp.

3. A high efficiency threading machine as defined in claim 1, wherein: including first gear train, second gear train and third gear train, first gear train is connected with the second gear train, the second gear train with the third gear train is connected, main motor drives first gear train rotates, first gear train drives second gear train and third gear train rotate, the second gear train drives big thread mould rotates, the third gear train drives little thread mould rotates.

4. A high efficiency threading machine as defined in claim 3, wherein: the first gear set and the second gear set are connected through a universal coupling or a gear shaft; the second gear set and the third gear set are connected through a universal coupling or a gear shaft.

5. A high efficiency threading machine as defined in claim 4, wherein: the first gear set and the second gear set are connected through a universal coupling; the second gear set and the third gear set are connected through a gear shaft.

6. A high efficiency threading machine as defined in claim 3, wherein: the first gear set comprises a motor gear, a clamp gear and a first linkage gear, wherein the gear ratio of the motor gear is the same as that of the clamp gear, the motor gear is meshed with the clamp gear, the clamp gear is meshed with the first linkage gear, the main motor drives the motor gear to rotate, the clamp gear drives the cup body to support the clamp to rotate, and the first linkage gear is connected with the second gear set.

7. A high efficiency threading machine as defined in claim 3, wherein: the second gear set comprises a second linkage gear, a large thread die gear and a third linkage gear, wherein the tooth ratios of the second linkage gear, the large thread die gear and the third linkage gear are the same, the second linkage gear is meshed with the large thread die gear, the large thread die gear is meshed with the third linkage gear, the large thread die gear drives the large thread die to rotate, the second linkage gear is connected with the first gear set, and the third linkage gear is connected with the third gear set.

8. A high efficiency threading machine as defined in claim 7, wherein: the third gear set comprises a fourth linkage gear, a fifth linkage gear and a small thread die gear, the fourth linkage gear is meshed with the fifth linkage gear, the fifth linkage gear is meshed with the small thread die gear, the gear ratio of the fourth linkage gear to the large thread die gear is the same, and the gear ratio of the fifth linkage gear to the small thread die gear to the fourth linkage gear is 1: 2.

9. A high efficiency threading machine as defined in claim 8, wherein: the tooth ratio of the small thread die gear to the large thread die gear is 1: 2.

10. A high efficiency threading machine as defined in claim 2, wherein: the driving mechanism is an oil cylinder.