CN207899936U - A kind of automation pipeline indent production line - Google Patents

Abstract

The utility model relates to an automatic pipeline grooving production line, which is sequentially provided with a pipe feeding machine, a pipe feeding machine, a first conveying line, a single-side pipe grooving machine and a second conveying line, and the unilateral pipe grooving machine is located at the first Between the conveying line and the second conveying line, the single-side pipe grooving machine is equipped with a roller conveying line and at least one set of first grooving devices located on the side of the roller conveying line, and each set of pipe grooving machines is equipped with a clamping The clamping mechanism of the pipe material, the roller conveying line is provided with the transmission roller assembly for driving the pipe material to move along the direction of the first grooving device. The line transports the pipes to be processed to the single-side pipe grooving machine for grooving processing, without manual handling, reducing the problem of unqualified processed products caused by manual factors, and the production performance is more stable, and can be processed continuously and smoothly, and the production efficiency is improved. High, to meet the needs of automated production.

Description

An automated pipeline grooving production line

technical field

The utility model relates to the technical field of pipeline processing, in particular to an automatic pipeline groove production line.

Background technique

The pipe is the main part of the pipeline system that plays a connecting role. During the production and processing of the pipe, the pipe fittings need to be processed automatically, such as pipes, grooves, threading and drilling according to the needs of use. Chinese utility model patent specification CN201520535584.2 discloses a A grooving machine, which includes a base, the base is provided with a motor, the motor is connected to the main shaft through a coupling, the motor is provided with a reducer, the main shaft is provided with a lower pressing wheel, and the lower pressing wheel The upper part is correspondingly provided with an upper pressure roller, the upper pressure roller is arranged on the pressure roller shaft, the pressure roller shaft is arranged on the pressure roller frame, the pressure wheel frame is connected with the hydraulic cylinder, and the hydraulic cylinder is provided with a pressure relief valve, The grooving machine with the above-mentioned structure requires manual handling of pipes on and off the machine. This pipe grooving machine requires many people to manually operate, which wastes manpower. The grooving efficiency is extremely low, and it is difficult to meet the needs of automated production.

Utility model content

In order to solve the above problems, the utility model provides an automatic pipeline grooving production line, which automatically loads, grooves and unloads, has high production efficiency, and meets the needs of automated production.

In order to solve the above object, the utility model adopts the following technical solutions.

An automatic pipe grooving production line, which is sequentially equipped with a pipe feeder, a pipe feeder, a first conveying line, a single-side pipe grooving machine and a second conveying line, and the unilateral pipe grooving machine is located between the first conveying line and the second conveying line. Between the two conveying lines, the single-side pipe grooving machine is equipped with a roller conveying line and at least one set of first grooving devices located on the side of the roller conveying line, and each set of pipe grooving machines is equipped with a clamp for clamping the pipe Mechanism, the roller conveying line is provided with a driving roller assembly for driving the pipe to move along the direction of the first grooving device.

Preferably, a double-sided pipe groover is provided on one side of the second conveying line, and the double-side pipe groover is provided with a symmetrically arranged second groover.

Preferably, the double-sided pipe grooving machine is also provided with a storage area for placing pipes, an accommodating tank on one side of the storage area, and a lift for transferring the pipes in the storage area to the accommodating tank. The feeding device, the second pressing groove device arranged symmetrically is arranged on both sides of the accommodating tank.

Preferably, the pipe feeding machine includes a feeding area for placing pipes, a discharge chute above the feeding area, and a lifting device for transporting the pipes in the feeding area to the discharge area, and the discharge chute is provided with Several first guide wheels for carrying pipes are arranged and distributed along the direction of pipes.

Preferably, the lifting device includes a support assembly for lifting pipes, a transmission shaft arranged across each group of support assemblies, and a first drive module connected to the transmission shaft, and the transmission shaft drives the support assembly to move up and down.

Preferably, the driving roller assembly is provided with a driving roller and a second driving module connected to the conveying roller, and the second driving module drives the conveying roller to rotate to drive the pipe to move along the direction of the first grooving device.

Preferably, the clamping mechanism includes a first roller bracket mechanism and a second roller bracket mechanism, the first roller bracket mechanism is connected with a third drive module, and the first roller bracket mechanism and the second roller bracket mechanism are both provided There are a support wheel seat and a support wheel installed on the support wheel seat.

Preferably, the roller conveying line is provided with several channels for accommodating pipes, and each channel is provided with a supporting material changing device for transferring the pipes to adjacent channels, and the supporting material changing device includes a supporting material plate and the fourth driving module connected with the supporting plate.

Preferably, the first conveying line is provided with a pushing device, and the pushing device includes a fixed frame, a push cylinder located on the fixed frame, and a push rod connected with the push cylinder.

Preferably, a pipe cutting machine is installed between the pipe feeding machine and the first conveying line.

The beneficial effects of the utility model are as follows:

Compared with the prior art, the utility model transports the pipe to be processed to the single-side pipe grooving machine for grooving processing through the pipe feeding machine, the pipe feeding machine and the first conveying line, and does not need manual handling, which reduces labor factors The problem of unqualified processed products is caused, the production performance is more stable, continuous and smooth processing can be carried out, the production efficiency is high, and the needs of automatic production are met.

Description of drawings

Fig. 1 is the three-dimensional structure schematic diagram of the present utility model;

Fig. 2 is the schematic diagram of the three-dimensional structure of the pipe feeder of the present invention;

Fig. 3 is a three-dimensional structural schematic diagram of the supporting material changing device of the present invention;

FIG. 4 is a schematic diagram of the enlarged structure at A in FIG. 1;

FIG. 5 is a schematic diagram of an enlarged structure at B of FIG. 1;

FIG. 6 is a schematic diagram of an enlarged structure at point C in FIG. 1 .

Explanation of reference signs: 1. Pipe feeding machine, 11. Feeding area, 12. Discharging trough, 121. First guide wheel, 2. Pipe feeding machine, 21. Transverse transmission module, 22. Pipe clamping device , 3. The first conveying line, 31. Pushing device, 311. Fixing frame, 312. Pushing cylinder, 313. Push rod, 4. Single-side pipe grooving machine, 41. Roller conveying line, 411. Channel, 42 .Driving roller assembly, 421. Driving roller, 422. Second driving module, 43. Supporting and changing device, 431. Supporting plate, 432. Fourth driving module, 44. First grooving device, 441. Clamping mechanism, 442. First roller bracket mechanism, 443. Second roller bracket mechanism, 444. Third drive module, 445. Supporting wheel seat, 446. Supporting wheel, 5. Second conveying line, 6. Double-sided pipe grooving machine, 61. Second grooving device, 62. Storage area, 63. Storage tank, 64. Lifting device, 641. Supporting component, 642. Transmission shaft, 643. First driving mold Group, 7. Pipe cutting machine, 8. Pipe.

Detailed ways

The utility model will be further described below in conjunction with the accompanying drawings.

Referring to Fig. 1 to Fig. 6, an automatic pipeline grooving production line is provided with a pipe feeder 1, a pipe feeder 2, a first conveying line 3, a single-side pipe grooving machine 4 and a second conveying line 5 in sequence, The side pipe grooving machine 4 is located between the first conveying line 3 and the second conveying line 5, and the single-side pipe grooving machine 4 is provided with a roller conveying line 41 and at least one set of first grooves located on the side of the roller conveying line 41 Device 44 , each group of pipe grooving machines is provided with a clamping mechanism 441 for clamping pipe 8 , and the roller conveying line 41 is provided with a driving roller assembly 42 for driving pipe 8 to move along the direction of the first grooving device 44 . Using the above technical scheme, the pipe to be processed is transported to the single-side pipe groover 4 through the pipe feeder 1, the pipe feeder 2 and the first conveying line 3 for groove processing, without manual handling, reducing the artificial factors. The problem of unqualified processed products, the production performance is more stable, when the pipe reaches the preset processing position, the transmission roller assembly 42 of the roller conveying line 41 drives the pipe to move along the direction of the first grooving device 44, and the first grooving device 44 pairs Grooving is performed at the end of the pipe to realize automatic grooving. After the grooving is completed, the transmission roller assembly 42 drives the pipe to move in the opposite direction to remove the pipe from the first grooving device 44, and the roller conveyor line 41 will complete the grooving process. The pipe is transported to the second conveying line 5, and the second conveying line 5 conveys the pipe to the next process. The utility model can process continuously and smoothly, has higher production efficiency, and meets the needs of automatic production.

As shown in Fig. 2 , one side of the second conveying line 5 of the present embodiment is provided with a double-sided pipe grooving machine 6, and the double-sided pipe grooving machine 6 is provided with a second grooving device 61 arranged symmetrically, and the double-sided pipe grooving The machine 6 is also provided with a storage area 62 for placing pipes, a storage tank 63 on one side of the storage area 62, and a lifting device for transferring the pipes in the storage area 62 to the storage tank 63 64. The symmetrically arranged second grooving device 61 is arranged on both sides of the accommodating groove 63. In this way, in this embodiment, by adding a double-sided pipe grooving machine 6, the two ends of the pipe can be automatically grooved respectively. It satisfies the situation that both ends of the pipes need to be grooved at the same time, which can greatly improve the production efficiency. The pipes to be processed are placed in the storage area 62, and the lifting device 64 lifts the pipes in the storage area 62 to the storage tank 63. The second grooving device 61 on both sides of the groove 63 performs grooving processing on both ends of the pipe material, and after the processing is completed, the pipe material is transported to the next process through the second conveying line 5 .

Fig. 1 shows that the pipe feeding machine 1 of the present embodiment includes a feeding area 11 for placing pipes, a discharge chute 12 above the feeding area 11, and a pipe for feeding the feeding area 11 to the discharging area. The lifting device 64 in the area, the discharge trough 12 is provided with several first guide wheels 121 for carrying pipes, and several first guide wheels 121 are arranged and distributed along the direction of the pipes, so that before processing, the pipes to be processed are placed on the In the feeding area 11 of the pipe feeder 1 , the lifting device 64 lifts the pipe and transfers it to the discharge tank 12 , so that the pipe feeder 2 can transfer the pipe to the next process.

Figures 1 and 6 show that the lifting device 64 of this embodiment includes a support assembly 641 for lifting pipes, a transmission shaft 642 that is horizontally arranged on each set of support assembly 641, and a first shaft connected to the transmission shaft 642. The drive module 643 and the transmission shaft 642 drive the supporting assembly 641 to move up and down. The supporting assembly 641 of this embodiment is provided with a supporting mounting plate fixed on the frame, and the supporting mounting plate is movably connected with a lifting plate. The material plate is provided with a rack, and the transmission shaft 642 is fixedly provided with a gear corresponding to the rack, and the rack and the gear are meshed for transmission. In this way, the first drive module 643 drives the transmission shaft 642 to rotate, and the gear of the transmission shaft 642 and the lifting plate The gear rack on the top is engaged with the drive, and the lifting plate climbs up to lift the pipe to complete the transfer action.

Figure 1 shows that the transmission roller assembly 42 of this embodiment is provided with a transmission roller 421 and a second drive module 422 connected to the transmission roller, and the second drive module 422 drives the transmission roller to rotate to drive the pipe along the first grooving device 44 to move in the direction, so that it is beneficial to transfer the pipe to the first grooving device 44 for automatic grooving without manual intervention and a high degree of automation.

Referring to Fig. 5, the clamping mechanism 441 of the present embodiment includes a first roller bracket mechanism 442 and a second roller bracket mechanism 443, the first roller bracket mechanism 442 is connected with a third drive module 444, the first roller bracket mechanism Mechanism 442 and the second roller bracket mechanism 443 are all provided with support roller 446 seat 445 and the support roller 446 that is installed on support roller 446 seat 445, like this, clamping mechanism 441 can limit pipe material in first roller bracket mechanism 442 and Between the second roller bracket mechanism 443, when the groove is processed, the performance is more stable and the safety is higher.

Figure 1 shows that the roller conveying line 41 of this embodiment is provided with several channels 411 for accommodating pipes, and each channel 411 is provided with a material change line for transferring pipes to adjacent channels 411 Device 43, referring to Fig. 3, supporting material changing line device 43 comprises supporting plate 431 and the fourth driving module 432 that is connected with supporting plate 431, and supporting plate 431 of the present embodiment has certain inclination, and the fourth driving module When the group 432 drives the support plate 431 to move upward to lift the pipe, it is beneficial for the pipe to slide down to fall into the adjacent channel 411 .

Referring to Fig. 4, the first conveying line 3 of the present embodiment is provided with pusher device 31, and pusher device 31 comprises fixed frame 311, is positioned at the push cylinder 312 of fixed frame 311 and the push rod 313 that is connected with push cylinder 312, like this, The fixing frame 311 is fixed on the first conveying line 3 , and when the pipe moves to a preset position, the cylinder 312 is pushed to drive the push rod 313 to extend, so as to push the pipe to the roller conveying line 41 .

Fig. 1 shows that a pipe cutting machine 7 is installed between the pipe feeding machine 2 and the first conveying line 3, so that the pipe cutting machine 7 cuts the pipe according to preset order information, which can effectively reduce waste generation.

Referring to Fig. 1, the pipe feeder 2 of the present embodiment is provided with a transverse transmission module 21, and the transverse transmission module 21 is connected with a pipe clamping device 22 for clamping the end of the pipe, so that the pipe clamping device 22 clamps Placed at the end of the pipe material in the discharge trough 12 of the pipe material feeding machine 1, the transverse transmission module 21 drives the pipe material clamping device 22 to drag the pipe material out, so as to transfer the pipe material to the pipe material cutting machine 7 for cutting, and the cut pipe material is cut The first conveying line 3 is transferred to the pipe grooving machine for grooving processing.

The above-mentioned embodiments only express several implementations of the utility model, and the description thereof is relatively specific and detailed, but it should not be construed as limiting the patent scope of the utility model. It should be noted that those skilled in the art can make several modifications and improvements without departing from the concept of the utility model, and these all belong to the protection scope of the utility model. Therefore, the scope of protection of the utility model patent should be based on the appended claims.

Claims (10)

1. a kind of automation pipeline indent production line, which is characterized in that be disposed with tubing feeder, tubing feeder, One pipeline, unilateral tubing book joint setting machine and the second pipeline, unilateral tubing book joint setting machine are located at the first pipeline and the second pipeline Between, unilateral tubing book joint setting machine is equipped with drum conveying line and at least one set of the first groove pressing device for being located at drum conveying line side, Every group of tubing book joint setting machine is equipped with the clamping device for tubing to be clamped, and drum conveying line is equipped with for driving tubing along the first pressure The live roller component of slot device direction movement.

2. a kind of automation pipeline indent production line according to claim 1, which is characterized in that the second pipeline side is set There are bilateral tubing book joint setting machine, bilateral tubing book joint setting machine to be equipped with the second groove pressing device being symmetrical set.

3. a kind of automation pipeline indent production line according to claim 2, which is characterized in that bilateral tubing book joint setting machine is also Equipped with for placing tubing material stock area, positioned at the storage tank of material stock area side and for transferring the tubing in material stock area To the act material device of the storage tank, the second groove pressing device being symmetrical set is set to the storage tank both sides.

4. a kind of automation pipeline indent production line according to claim 1, which is characterized in that tubing feeder includes using In the feeding area of placement tubing, the trough above feeding area and for the tubing of feeding area to be delivered to blowing area Material device is lifted, trough is equipped with several the first directive wheels for being used to carry tubing, several first directive wheels are along tubing direction Arranged distribution.

5. a kind of automation pipeline indent production line according to claim 3 or 4, which is characterized in that lifting material device includes For lift the retainer component of tubing, cross at every group of retainer component transmission shaft and with the first driving mould of transmission axis connection Group, transmission shaft drive retainer component to move up and down.

6. a kind of automation pipeline indent production line according to claim 1, which is characterized in that live roller component is equipped with Live roller and the second driving module being connect with delivery roller, the second driving module driving delivery roller rotation is to drive tubing It is moved along the first groove pressing device direction.

7. a kind of automation pipeline indent production line according to claim 1, which is characterized in that clamping device includes first Roller bracket mechanism and the second roller bracket mechanism, the first roller bracket mechanism are connected with third driving module, the first idler wheel support Frame mechanism and the second roller bracket mechanism are equipped with supporting roller base and are installed on the support roller of supporting roller base.

8. a kind of automation pipeline indent production line according to claim 1, which is characterized in that if drum conveying line is equipped with Dry item is used to house the conduit of tubing, and every conduit is equipped with the retainer wire-changing device for tubing to be transferred to adjacent conduit, Retainer wire-changing device includes retainer plate and the 4 wheel driven dynamic model group being connect with retainer plate.

9. a kind of automation pipeline indent production line according to claim 1, which is characterized in that the first pipeline is equipped with and pushes away Expect that device, material-pulling device include fixed frame, the pusher cylinder positioned at fixed frame and the push rod that is connect with pusher cylinder.

10. a kind of automation pipeline indent production line according to claim 1, which is characterized in that tubing feeder and Tubing cutting machine is installed between one pipeline.