CN216750984U - Threading sleeve mechanism - Google Patents

Abstract

The application relates to the field of transformer processing, in particular to a threading sleeve mechanism. The key points of the technical scheme are as follows: comprises a frame, a threading assembly, a pipe conveying assembly, a clamping and conveying assembly, a first cutting assembly and a second cutting assembly; the threading assembly and the pipe conveying assembly are respectively arranged on the rack, the threading assembly is used for conveying out a pipeline, and the threading assembly is used for penetrating a lead into a pipe section; the clamping and transferring assembly is movably arranged on the rack, can reciprocate between the threading assembly and the pipe conveying assembly and is used for clamping and fixing the pipeline; the first cutting assembly is arranged on the clamping and transferring assembly, is opposite to the tail part of the pipeline and is used for punching the tail part of the pipeline; the subassembly is cut off to the second, locates on the centre gripping transports the subassembly, the second cuts off the middle part of subassembly to the pipeline and punches, and this application has the effect of the shaping efficiency of lifting sleeve action.

Description

Threading sleeve mechanism

Technical Field

The application relates to the field of transformer processing, in particular to a threading sleeve mechanism.

Background

The transformer is a device for changing circuit voltage, the core components of the transformer comprise a framework, a lead and an iron core, the lead is respectively wound at the framework and the iron core, the iron core is placed in the framework to form a magnetic induction element, the voltage is changed under the action of electromagnetic induction by introducing alternating current, and the transformer is widely applied to electrical equipment.

At present, because a part of transformers need to be used in a high-voltage environment, an insulating tube is sleeved at the end part of the transformer and plays a role in preventing current from puncturing a winding, and the safety and the reliability of the transformer in use are improved; when the pipe sections are installed, a manual sleeving mode is generally adopted in the related art, so that the efficiency is low; in order to overcome the defects in the related art, the inventor of the present application invented an automatic pipe cutting and sleeving device, which realizes automatic sleeving by cutting a pipeline at one of the stations and transferring the pipeline to the next station for threading, and thus improves the production efficiency and the automation degree of sleeving actions.

However, the inventor finds that when the pipe is cut, two pipe sections need to be sleeved at the conducting wire at the same time, the device needs to repeatedly cut the pipe sections for many times in the process, the used time of the process is long, and the efficiency of the casing forming has a large lifting space.

SUMMERY OF THE UTILITY MODEL

In order to promote the shaping efficiency of sleeve pipe action, this application provides a threading sleeve pipe mechanism.

The application provides a threading sleeve pipe mechanism adopts following technical scheme:

a threading sleeve mechanism comprises a rack, a threading assembly, a pipe conveying assembly, a clamping and transferring assembly, a first cutting assembly and a second cutting assembly; the threading assembly and the pipe conveying assembly are respectively arranged on the rack, the threading assembly is used for conveying a pipeline out, and the threading assembly is used for threading a lead into a pipe section; the clamping and transferring assembly is movably arranged on the rack and is positioned between the threading assembly and the pipe conveying assembly, the clamping and transferring assembly can reciprocate between the threading assembly and the pipe conveying assembly, a clamping channel is formed in the clamping and transferring assembly, and the clamping and transferring assembly is used for clamping and fixing a pipeline in the clamping channel; the first cutting assembly is arranged on the clamping and transferring assembly, is opposite to the tail part of the pipeline and is used for punching the tail part of the pipeline; the second cuts off the subassembly, locates on the subassembly is transferred to the centre gripping, the subassembly is transferred to the centre gripping still has die-cut passageway, die-cut passageway with the regional intercommunication in middle part of centre gripping passageway, the second cuts off the subassembly via die-cut passageway is die-cut to the middle part of pipeline.

By adopting the technical scheme, the first cutting assembly and the second cutting assembly can be started simultaneously so as to cut the middle part and the tail part of the pipe section transferred into the clamping channel, and further form a head pipe and a tail pipe simultaneously, so that the punching efficiency is high; then, under the driving of the clamping and transferring assembly, the sleeve moves to the threading assembly to perform automatic threading action, and the forming efficiency of the sleeve action is improved.

Preferably, the clamping and transferring assembly comprises a power part and a clamping part; the power part is arranged on the rack and is respectively adjacent to the threading assembly and the pipe conveying assembly; the clamping part set up in on the power part, the centre gripping passageway and die-cut passageway is located on the clamping part, the clamping part is used for the centre gripping pipeline section, the power part is used for the drive the clamping part is in send the pipe subassembly and reciprocating motion between the threading subassembly.

Through adopting above-mentioned technical scheme, under the effect that clamping part and power portion mutually supported, the subassembly is transferred in the centre gripping realizes transferring the pipeline section, and each part action is independently gone on, and the structure is nimble.

Preferably, the power part comprises a displacement cylinder and a displacement seat, the displacement seat is connected to the rack in a sliding manner, the clamping part is arranged on the displacement seat, the displacement cylinder is fixedly connected to the rack, and a telescopic rod of the displacement cylinder is connected to the displacement seat.

Through adopting above-mentioned technical scheme, start the displacement cylinder, the displacement cylinder can drive displacement seat reciprocating motion, and then drives the clamping part and remove, and the action is swift simple, and the action is efficient.

Preferably, the clamping part includes centre gripping cylinder, fixing base and sliding seat, the fixing base adjustable set up in the power part, the sliding seat slide set up in on the fixing base, the sliding seat can for the fixing base is close to or keeps away from, the telescopic link of centre gripping cylinder with the sliding seat links to each other, the centre gripping cylinder is used for the drive the sliding seat close in the fixing base, the fixing base and be equipped with respectively on the sliding seat and press from both sides the groove, work as the fixing base close in during the sliding seat, two it forms the centre gripping passageway to press from both sides the groove.

Through adopting above-mentioned technical scheme, the centre gripping cylinder can drive the fixing base and stabilize and close in sliding seat department, and then makes two clamp grooves form the centre gripping passageway, and the pipeline can obtain stable centre gripping in the centre gripping passageway, and the centre gripping is stable and swift.

Preferably, the clamping part further comprises a return spring, and the return spring is respectively connected with the fixed seat and the movable seat.

Through adopting above-mentioned technical scheme, reset spring can exert the elasticity that resets to the sliding seat, is convenient for open sliding seat and fixing base, makes reset spring support the sliding seat simultaneously to keep the open mode, be convenient for in the pipeline gets into the centre gripping passageway.

Preferably, the first cutting assembly comprises a first cutting cylinder and a first blade, the first cutting cylinder is fixedly connected to the clamping and transferring assembly, the first blade is fixedly connected to a telescopic rod of the first cutting cylinder, and the first blade is close to one end of the clamping channel.

By adopting the technical scheme, the first cutting cylinder drives the first blade to reciprocate, the action is simple and quick, the first blade is used for punching the tail part of the pipeline, and the structure is reliable and practical.

Preferably, the second cutting assembly comprises a second cutting cylinder and a second cutter cutting piece, the second cutting cylinder is fixedly connected to the clamping and transferring assembly, the second cutting blade is fixedly connected to a telescopic rod of the second cutting cylinder, and the second blade is embedded into the punching channel.

Through adopting above-mentioned technical scheme, the second cuts off that the cylinder can drive second blade reciprocating motion, and the action is succinct quick, and the second blade is die-cut to the middle part position of pipeline, and the structure is reliable practical.

Preferably, still include flaring subassembly, the flaring subassembly includes flaring cylinder and conical part, flaring cylinder fixed mounting in the frame, conical part fixed connection in on the telescopic link of flaring cylinder, conical part with die-cut passageway is relative, conical part is used for the tip of plug-in connection pipe section.

By adopting the technical scheme, the flaring cylinder is started, the flaring cylinder drives the conical piece to be inserted into the end part of the pipe section in the punching channel, so that the pipe section is flared, and threading is facilitated.

Preferably, the pipe conveying assembly comprises a driving part and a pushing seat, the driving part is arranged on the rack, the pushing seat is slidably arranged on the rack and connected with the driving part, and the driving part is used for driving the pushing seat to be close to or far away from the clamping and conveying assembly; the clamping part is arranged on the pushing seat and used for clamping a pipeline.

Through adopting above-mentioned technical scheme, when seeing the pipeline off, start the drive division, drive division drive propelling movement seat slides, and clamping portion carries out the centre gripping with the pipeline this moment, finally sees the pipeline interval off, realizes the inlet wire action, and the structure sets up rationally and high-efficiently.

Preferably, the threading assembly includes: the wire feeding mechanism comprises two groups of rotating wheel sets, a wire feeding mechanism and a wire feeding mechanism, wherein the two groups of rotating wheel sets are rotatably arranged on the rack, a wire feeding gap is formed between the two groups of rotating wheel sets, and the two groups of rotating wheel sets are in transmission connection; the threading motor is arranged on the rack, and an output shaft of the threading motor is connected with the rotating wheel set and used for driving the rotating wheel set to rotate.

Through adopting above-mentioned technical scheme, the wire can get into send the line clearance in, through starting the threading motor, drives two sets of rotating wheel groups and rotates, and then sees the wire off, and the structure is ingenious practical.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the first cutting assembly and the second cutting assembly synchronously cut the middle part and the tail part of the pipe section transferred into the clamping channel, so that a head pipe and a tail pipe are formed at the same time, and the punching efficiency is high; then, under the drive of the clamping and transferring assembly, the sleeve moves to the threading assembly to perform automatic threading action, and the forming efficiency of the sleeve action is improved;

2. under the mutual matching action of the clamping part and the power part, the clamping and transferring assembly transfers the pipe section, each part acts independently, and the structure is flexible;

3. the flaring cylinder can drive the conical part to insert the end part of the pipe section located in the punching channel, so that the pipe section is flared, threading is facilitated, and the structure is practical.

Drawings

Fig. 1 is a schematic structural diagram of the threading bushing mechanism of the present application.

FIG. 2 is a schematic structural view of the tube assembly of the present application.

Fig. 3 is a schematic view of the structure of the clamping and transfer assembly of the present application.

Fig. 4 is a schematic view of the present application from another perspective of the clamping and transfer assembly.

Fig. 5 is a schematic view of the structure of the threading assembly of the present application.

Description of reference numerals:

1. a frame;

2. a tube feeding assembly; 21. a pushing seat; 22. a drive section; 221. a drive motor; 222. a drive gear; 223. a rack; 23. a clamping part;

3. a threading assembly; 31. rotating the wheel set; 311. a rotating shaft; 312. a transmission gear; 313. a wire feeding wheel; 32. a threading motor;

4. a clamping and transferring assembly; 41. a power section; 411. a displacement cylinder; 412. a displacement seat; 42. a clamping part; 421. a clamping cylinder; 422. a fixed seat; 4221. a kidney-shaped hole; 423. a movable seat; 424. a return spring;

5. a first severing assembly; 51. a first cut-off cylinder; 52. a first blade;

6. a second severing assembly; 61. a second blade; 62. a second cut-off cylinder;

7. a flaring assembly; 71. a flaring cylinder; 72. a conical member;

8. a conduit; 9. a clamping groove; 10. a clamping channel; 11. and punching the channel.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses threading sleeve pipe mechanism. Referring to fig. 1, the threading cannula mechanism comprises a frame 1, a cannula feeding assembly 2, a threading assembly 3, a clamping and transferring assembly 4, a first cutting assembly 5 and a second cutting assembly 6; the threading assembly 3 and the pipe conveying assembly 2 are respectively arranged on the rack 1, the threading assembly 3 and the pipe conveying assembly 2 are arranged adjacently, the pipe conveying assembly 2 is used for conveying out a pipeline, the threading assembly 3 is used for conveying out a lead, and the pipeline and the lead are both conveyed out towards the same side of the rack 1; it should be noted that the pipeline refers to a strip-shaped insulating pipe, a pair of pay-off stands can be independently installed at the moment, and the pipeline can be wound on the pay-off stands for paying off; in addition, the wire is similar to the pipeline, and the wire can be wound on a pay-off rack for paying off.

In addition, the clamping and transferring component 4 is movably arranged on the frame 1 and is positioned between the threading component 3 and the pipe conveying component 2, the clamping and transferring component 4 can reciprocate between the threading component 3 and the pipe conveying component 2, and when the clamping and transferring component 4 is close to the pipe conveying component 2, a pipeline can be conveyed into the clamping and transferring component 4; the first cutting assembly 5 and the second cutting assembly 6 are respectively arranged on the clamping and transferring assembly 4, and the first cutting assembly 5 is opposite to the tail of the pipeline and used for punching the tail of the pipeline so as to form a pipe section; meanwhile, the second cutting assembly 6 is arranged on the clamping and transferring assembly 4, and the second cutting assembly 6 is used for punching the middle part of the pipeline so as to form a head pipe and a tail pipe of the pipe section.

After the pipe cutting action is finished, the clamping and transferring assembly 4 drives the head pipe and the tail pipe to move to the threading assembly 3, and the threading assembly 3 penetrates a lead into the head pipe and the tail pipe to realize the sleeve action.

Referring to fig. 2, to deliver the pipeline, the pipe feeding assembly 2 includes a delivery seat 21, a driving portion 22, and a clamping portion 23. Wherein, propelling movement seat 21 is the bedplate form setting in this application, and propelling movement seat 21 slides and sets up in frame 1, and is concrete, fixed mounting has the slider on the propelling movement seat 21, and fixed mounting has the slide rail that slides the complex with the slider in frame 1 simultaneously, and the subassembly 4 is transferred near the centre gripping to the one end of slide rail, and propelling movement seat 21 realizes sliding movement installation on frame 1 through the slider and the slide rail of the complex of sliding each other this moment to propelling movement seat 21 can be for the centre gripping transfer subassembly 4 and be close to or keep away from.

In addition, the driving part 22 is arranged on the frame 1, the driving part 22 is connected with the pushing seat 21, and the driving part 22 is used for driving the pushing seat 21 to reciprocate; specifically, the driving portion 22 includes a driving motor 221, a driving gear 222 and a rack 223 in this embodiment, the driving motor 221 is fixedly mounted on the frame 1 and adjacent to the pushing seat 21, the driving gear 222 is fixedly mounted on an output shaft of the driving motor 221, the rack 223 is fixedly mounted on the pushing seat 21, and the driving gear 222 and the rack 223 are engaged with each other.

Here, the driving motor 221 is started to drive the driving gear 222 to rotate forward or backward, the rack 223 can be pushed to move in the process of rotating the driving gear 222, the rack 223 drives the pushing seat 21 to reciprocate, the clamping portion 23 is arranged on the pushing seat 21, and the pipeline is clamped by the clamping portion 23.

In other embodiments, the driving portion 22 may also be a cylinder or a linear module, and the driving portion 42 can be driven to reciprocate, which is not described herein.

Further, the clamping portion 23 is used as a pneumatic finger in this embodiment, the clamping portion 23 is fixedly installed on the pushing seat 21, the pipeline passes through the pneumatic finger, the pneumatic finger is started, the pneumatic finger can clamp the pipeline, and the clamping portion 23 sends the pipeline out towards the clamping and transferring component 4 under the driving of the pushing seat 21.

Meanwhile, in order to improve the accuracy of the pipeline during sending out, a guide pipe 8 is fixedly mounted on the rack 1, the guide pipe 8 is located between the clamping part 23 and the clamping and transferring component 4, two ends of the guide pipe 8 are respectively opposite to the clamping part 23 and the clamping and transferring component 4, the guide pipe 8 can penetrate into the guide pipe 8, and the guide pipe 8 guides the guide pipe, so that the guide pipe can be accurately sent into the clamping and transferring component 4.

Referring to fig. 3, the clamping and transferring assembly 4 includes a power unit 41 and a clamping unit 42 for clamping and transferring the pipe. The power part 41 is arranged on the machine frame 1, the power part 41 is respectively adjacent to the threading assembly 3 and the pipe conveying assembly 2, the clamping part 42 is arranged on the power part 41, the clamping part 42 is used for clamping a pipe section, and the power part 41 is used for driving the clamping part 42 to reciprocate between the pipe conveying assembly 2 and the threading assembly 3 so as to realize the transfer of the pipe section.

Wherein, power portion 41 includes displacement cylinder 411 and displacement seat 412, and displacement seat 412 is the bedplate form setting in this embodiment, and displacement seat 412 slides and connects on frame 1, and is specific, installs the slider on the displacement seat 412 equally, and fixed mounting has the slide rail with the slider cooperation of sliding on frame 1 simultaneously, and the both ends of slide rail are close to threading subassembly 3 and send tub subassembly 2 respectively, and displacement seat 412 can be at threading subassembly 3 and send tub subassembly 2 between reciprocating sliding at this moment.

Meanwhile, the displacement cylinder 411 is fixedly installed on the rack 1, the telescopic rod of the displacement cylinder 411 is fixedly connected with the displacement seat 412, the clamping portion 42 is arranged on the displacement seat 412, the displacement cylinder 411 is started, and the clamping portion 42 can be driven to move between the pipe conveying assembly 2 and the threading assembly 3 in a reciprocating mode, so that the pipe sections are transferred.

To clamp the pipeline, the clamping portion 42 includes a clamping cylinder 421, a fixed seat 422, a movable seat 423, and a return spring 424. Wherein, sliding seat 423 and fixing seat 422 are both in the shape of a seat plate, and fixing seat 422 is adjustably disposed on power unit 41, and sliding seat 423 is slidably disposed on fixing seat 422.

Specifically, fixed mounting has the slide rail on displacement seat 412, and sliding setting respectively in slide rail department of sliding seat 423 and fixing base 422 has seted up waist type hole 4221 on the fixing base 422, and fixing base 422 inserts in waist type hole 4221 through a screw, makes screw and threaded connection on displacement seat 412, and at this moment, through the elasticity of adjusting screw, can realize fixing base 422's position control, the position accuracy nature of the debugging fixing base 422 of being convenient for.

The movable seat 423 can be close to or far from the fixed seat 422, and the movable seat 423 can abut against the fixed seat 422, so that the movable seat 423 and the fixed seat 422 are closed; meanwhile, the opposite side surfaces of the fixed seat 422 and the movable seat 423 are respectively provided with clamping grooves 9 in a concave manner from outside to inside, when the movable seat 423 and the fixed seat 422 are closed, the two clamping grooves 9 form a clamping channel 10, the wire is fed into the clamping channel 10, and the fixed seat 422 and the movable seat 423 clamp and fix the pipeline in the clamping channel 10.

For order to order about sliding seat 423 and fixing base 422 with the pipeline centre gripping, centre gripping cylinder 421 fixed mounting is on displacement seat 412 to the telescopic link and the sliding seat 423 fixed connection of centre gripping cylinder 421 start centre gripping cylinder 421, and centre gripping cylinder 421 promotes sliding seat 423 and moves towards fixing base 422 department, and until sliding seat 423 closed fixing base 422, and then the realization is with the pipeline centre gripping, the action is swift.

In addition, reset spring 424 is located between sliding seat 423 and fixing base 422, and reset spring 424's both ends respectively with fixing base 422 and sliding seat 423 fixed connection, and reset spring 424 supports sliding seat 423 here for sliding seat 423 opens relative to fixing base 422 under conventional state, and the pipeline of being convenient for gets into centre gripping passageway 10 in, and reset spring 424 is convenient for sliding seat 423 and resets.

Referring to fig. 3 and 4, after the pipeline enters the gripping channel 10, the pipeline is die cut by the first severing assembly 5 and the second severing assembly 6 into lengths of pipe.

The first cutting assembly 5 comprises a first cutting cylinder 51 and a first blade 52, the first cutting cylinder 51 is fixedly mounted on the displacement seat 412 of the clamping and transferring assembly 4, the first blade 52 is fixedly connected to the telescopic rod of the first cutting cylinder 51, the first blade 52 is adjacent to one end of the clamping channel 10 close to the pipe conveying assembly 2, therefore, the first cutting cylinder 51 is started when the pipeline enters the clamping channel 10, and the first blade 52 is driven by the first cutting cylinder 51 to cut the tail of the pipeline to form a pipe section.

In addition, the second cutting assembly 6 forms a head pipe and a tail pipe by punching a pipe section, wherein punching notches are respectively formed in the movable seat 423 and the fixed seat 422, when the fixed seat 422 and the movable seat 423 are closed, the two punching notches are spliced to form a punching channel 11, the punching channel 11 is communicated with the middle area of the clamping channel 10, and the second cutting assembly 6 punches the middle part of the pipeline through the punching channel 11.

The second cuts off subassembly 6 and includes second and cuts off cylinder 62 and second blade 61, second cuts off cylinder 62 fixed mounting on centre gripping fixing base 422, second blade 61 fixed mounting is on the telescopic link that the second cut off cylinder 62, second blade 61 imbeds in die-cut passageway 11, start second and cut off cylinder 62, the second cuts off cylinder 62 drive second blade 61 and carries out die-cut to the pipeline section that is located centre gripping passageway 10, and then form head pipe and tail pipe, first cutting off subassembly 5 and second cutting off subassembly 6 can cooperate in step, and then die-cut the shaping with head pipe and tail pipe in step, the action is succinct high-efficient.

It should be noted that, compared with the case of only one set of cutting assemblies, the first cutting assembly 5 and the second assembly can also satisfy various installation forms of the threading sleeve mechanism, for example, when only one set of cutting assemblies is provided, the head pipe needs to be firstly punched, and then the movable seat 423 and the fixed seat 422 are mutually opened to continue feeding the pipeline, and the tail pipe is punched in the clamping channel 10; in this process, because of sliding seat 423 and fixing base 422 need open each other, consequently centre gripping passageway 10 needs the level to set up, and then makes threading sleeve mechanism level setting, and the area is great when this moment transversely puts because of threading sleeve mechanism, can cause corresponding device's volume great.

Through setting up first cutting assembly 5 and second cutting assembly 6 here, so make the die-cut head pipe and tail pipe of pipeline section under whole tight state of clamp, consequently threading sleeve pipe mechanism can vertically put, reduces horizontal area for corresponding equipment structure is compacter, has reached unexpected technological effect.

Referring back to fig. 2, after the pipe section is punched and formed, the clamping and transferring assembly 4 transfers the pipe section to the threading assembly 3 for threading, and before that, in order to improve the accuracy of threading, the pipe section needs to be flared through the flaring assembly 7.

Specifically, the flaring assembly 7 is positioned between the pipe conveying assembly 2 and the threading assembly 3, the flaring assembly 7 comprises a flaring cylinder 71 and a conical piece 72, the flaring cylinder 71 is fixedly arranged on the frame 1, an expansion rod of the flaring cylinder 71 faces to the position where the clamping and transferring assembly 4 is positioned, and the conical piece 72 is fixedly connected to the expansion rod of the flaring cylinder 71; the power part 41 can drive the clamping part 42 to move to a position opposite to the flaring assembly 7, the conical piece 72 is opposite to the punching channel 11, the flaring cylinder 71 is started, the flaring cylinder 71 drives the conical piece 72 to be inserted into the end of the pipe section, and the end of the pipe section is flared, so that a lead can be conveniently introduced into the pipe section.

Referring to fig. 5, after the pipe section is flared, the power unit 41 drives the clamping unit 42 to move to a position opposite to the threading assembly 3. In order to send out the lead, the threading assembly 3 comprises a threading motor 32 and two groups of rotating wheel sets 31, the rotating wheel sets 31 are rotatably arranged on the rack 1, and the two groups of rotating wheel sets 31 are arranged adjacently; specifically, the rotating wheel set 31 includes a rotating shaft 311, a wire feeding wheel 313 and a transmission gear 312, the rotating shaft 311 is rotatably supported on the frame 1 through a bearing, the wire feeding wheel 313 and the transmission gear 312 are respectively and fixedly mounted on the rotating shaft 311, and the transmission gears 312 of the two rotating wheel sets 31 are meshed with each other to realize transmission connection.

In addition, the threading motor 32 is fixedly arranged on the frame 1, the output shaft of the threading motor 32 is fixedly connected with the rotating shaft 311 of one set of rotating wheel set 31, the threading motor 32 is started, the threading motor 32 can drive the rotating shaft 311 to rotate, the two wire feeding wheels 313 rotate under the action of the transmission gear 312, at the moment, a wire feeding gap is formed between the two sets of rotating wheel sets 31, the conducting wire is fed into the wire feeding gap, the conducting wire is abutted to the wire feeding wheels 313, and the conducting wire is fed out by the two wire feeding wheels 313. Accordingly, in order to improve the accuracy of the lead wire feeding, a guide tube 8 can be installed on the frame 1 near the threading assembly 3, the guide tube 8 is communicated with the clamping channel 10, and the accuracy of the lead wire feeding is improved.

The implementation principle of a threading sleeve mechanism in the embodiment of the application is as follows: the pipe conveying assembly 2 conveys the pipeline into a clamping channel 10 of the clamping and transferring assembly 4, the first cutting assembly 5 and the second cutting assembly 6 are started at the same time, and the first cutting assembly 5 and the second cutting assembly 6 cut the middle part and the tail part of the pipeline transferred into the clamping channel 10, so that a head pipe and a tail pipe are formed synchronously, and the punching efficiency is high; then, under the driving of the clamping and transferring assembly 4, the pipe section moves to the threading assembly 3 to perform automatic threading action, and the forming efficiency of the sleeve action is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a threading sleeve pipe mechanism, includes frame (1), its characterized in that: the device also comprises a threading assembly (3), a pipe conveying assembly (2), a clamping and transferring assembly (4), a first cutting assembly (5) and a second cutting assembly (6);

the threading assembly (3) and the pipe conveying assembly (2) are respectively arranged on the rack (1), the threading assembly (3) is used for conveying a pipeline out, and the threading assembly (3) is used for penetrating a lead into a pipe section;

the clamping and transferring assembly (4) is movably arranged on the rack (1) and is positioned between the threading assembly (3) and the pipe conveying assembly (2), the clamping and transferring assembly (4) can reciprocate between the threading assembly (3) and the pipe conveying assembly (2), a clamping channel (10) is formed in the clamping and transferring assembly (4), and the clamping and transferring assembly (4) is used for clamping and fixing a pipeline in the clamping channel (10);

the first cutting assembly (5) is arranged on the clamping and transferring assembly (4), and the first cutting assembly (5) is opposite to the tail of the pipeline and used for punching the tail of the pipeline;

the second cuts off subassembly (6), locates on subassembly (4) is transferred to the centre gripping, subassembly (4) is transferred to the centre gripping still has die-cut passageway (11), die-cut passageway (11) with the regional intercommunication in middle part of centre gripping passageway (10), the second cuts off subassembly (6) via die-cut passageway (11) die-cut the middle part of pipeline.

2. A threading cannula arrangement according to claim 1, wherein: the clamping and transferring assembly (4) comprises a power part (41) and a clamping part (42);

the power part (41) is arranged on the rack (1), and the power part (41) is respectively adjacent to the threading assembly (3) and the pipe conveying assembly (2);

clamping part (42) set up in on power portion (41), centre gripping passageway (10) and die-cut passageway (11) are located on clamping part (42), clamping part (42) are used for the centre gripping pipeline section, power portion (41) are used for the drive clamping part (42) are in send pipe subassembly (2) and threading subassembly (3) between reciprocating motion.

3. A threading cannula arrangement according to claim 2, wherein: power portion (41) include displacement cylinder (411) and displacement seat (412), displacement seat (412) slide connect in on frame (1), clamping part (42) are located on displacement seat (412), displacement cylinder (411) fixed connection in on frame (1), the telescopic link of displacement cylinder (411) with displacement seat (412) are connected.

4. A threading cannula arrangement according to claim 2, wherein: clamping part (42) includes centre gripping cylinder (421), fixing base (422) and sliding seat (423), fixing base (422) adjustable set up in on power portion (41), sliding seat (423) set up in on fixing base (422), sliding seat (423) can for fixing base (422) are close to or keep away from, the telescopic link of centre gripping cylinder (421) with sliding seat (423) link to each other, centre gripping cylinder (421) are used for the drive sliding seat (423) close in fixing base (422), fixing base (422) and be equipped with respectively on sliding seat (423) and press from both sides groove (9), work as fixing base (422) close in during sliding seat (423), two press from both sides groove (9) and form centre gripping passageway (10).

5. A threading bushing mechanism according to claim 4, characterized in that: the clamping part (42) further comprises a return spring (424), and the return spring (424) is connected with the fixed seat (422) and the movable seat (423) respectively.

6. A threading cannula arrangement according to claim 1, wherein: the first cutting assembly (5) comprises a first cutting cylinder (51) and a first blade (52), the first cutting cylinder (51) is fixedly connected to the clamping and transferring assembly (4), the first blade (52) is fixedly connected to a telescopic rod of the first cutting cylinder (51), and the first blade (52) is close to one end of the clamping channel (10).

7. A threading bushing mechanism according to claim 1, characterized in that: the second cutting assembly (6) comprises a second cutting cylinder (62) and a second blade (61), the second cutting cylinder (62) is fixedly connected to the clamping and transferring assembly (4), the second blade (61) is fixedly connected to a telescopic rod of the second cutting cylinder (62), and the second blade (61) is embedded into the punching channel (11).

8. A threading cannula arrangement according to claim 1, wherein: still include flaring subassembly (7), flaring subassembly (7) include flaring cylinder (71) and conical member (72), flaring cylinder (71) fixed mounting in on frame (1), conical member (72) fixed connection in on the telescopic link of flaring cylinder (71), conical member (72) with die-cut passageway (11) is relative, conical member (72) are used for the tip of plug-in connection pipe section.

9. A threading cannula arrangement according to claim 1, characterized in that the cannula assembly (2) comprises:

a driving part (22), wherein the driving part (22) is arranged on the frame (1),

the pushing seat (21) is slidably arranged on the rack (1) and connected with the driving part (22), and the driving part (22) is used for driving the pushing seat (21) to approach or depart from the clamping and transferring assembly (4);

clamping part (23), clamping part (23) are located on propelling movement seat (21), clamping part (23) are used for the centre gripping pipeline.

10. A threading cannula arrangement according to claim 1, characterized in that the threading assembly (3) comprises:

the wire feeding mechanism comprises two groups of rotating wheel sets (31), wherein the rotating wheel sets (31) are rotationally arranged on the rack (1), a wire feeding gap is formed between the two groups of rotating wheel sets (31), and the two groups of rotating wheel sets (31) are in transmission connection;

the threading motor (32) is arranged on the rack (1), and an output shaft of the threading motor (32) is connected with one group of the rotating wheel set (31) and is used for driving the rotating wheel set (31) to rotate.

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