CN206474953U - The two-way device for discharging of full-automatic pipe - Google Patents

Abstract

The utility model discloses a kind of two-way device for discharging of full-automatic pipe, including unloading rack, the both sides of unloading rack are respectively equipped with what some groups of dislocation were oppositely arranged：First discharge component includes the first stripper, and the first stripper connects the first stripper cylinder by the first fixed strip, and drives the first stripper to rotate discharging by the first stripper cylinder；Second discharge component includes the second stripper, and the second stripper connects the second stripper cylinder by the second fixed strip, and drives the second stripper to rotate discharging by the second stripper cylinder；Also include control unit, be connected respectively with the first discharging cylinder and the second discharging cylinder, and realize automatic bidirectional discharging.The utility model, by setting the first discharge component and the second discharge component respectively on unloading rack, by control unit control, the bilateral that can be realized in unloading rack realizes two-way automatic discharging, and automaticity is high, and control is accurate, efficiency high.

Description

The two-way device for discharging of full-automatic pipe

Technical field

The utility model is related to tubular object extruding technical field, and in particular to the two-way device for discharging of full-automatic pipe.

Background technology

At present, discharging during tubing cutting processing, typically all by the way of artificial, it is so not only time-consuming take a lot of work, efficiency Lowly, the big and artificial fluctuation of service of labor intensity is also dangerous, seriously restriction tubular object extruding such as adding when welding or cutting Work speed.

Therefore, there is big inefficiency, labor intensity, stability and safety in discharging during existing tubing cutting processing Property difference the problem of.

Utility model content

There is operating efficiency in discharging when technical problem to be solved in the utility model is existing tubing cutting processing Low, labor intensity is big, stability and the problem of poor security.

In order to solve the above-mentioned technical problem, it is double that the technical scheme that the utility model is used is to provide a kind of full-automatic pipe To device for discharging, including unloading rack, the both sides of the unloading rack are respectively equipped with what some groups of dislocation were oppositely arranged：

First discharge component, including the first stripper, first stripper connect the first discharging by the first fixed strip Plate cylinder, and drive first stripper to rotate discharging by the first stripper cylinder；

Second discharge component, including the second stripper, second stripper connect the second discharging by the second fixed strip Plate cylinder, and drive second stripper to rotate discharging by the second stripper cylinder；

Also include control unit, be connected respectively with the first discharging cylinder and the second discharging cylinder, and realize certainly Move two-way discharging.

In such scheme, the outside of the second discharge component described in every group is provided with one group of tubing transmission mechanism side by side, its Including tubing drive, the tubing drive is driven by driving belt component and rotated, and tubing is passed into station.

In such scheme, the upper surface infolding of first stripper forms two-sided ramp structure, the two-sided slope knot Structure includes the first slope and the second slope for being mated with close to the tubing, and the length of the first slope is less than described the The length on two slopes.

In such scheme, first fixed strip is arranged on bottom surface one end of first stripper, its one end and institute State the first stripper to be hinged, the expansion link of the other end and the first stripper cylinder is hinged.

In such scheme, the upper surface infolding of second stripper forms two-sided ramp structure, the two-sided slope knot Structure is included close to the 3rd slope and the 4th slope that is mated with of the tubing, and the length on the 3rd slope is more than described the The length on four slopes.

In such scheme, second fixed strip is arranged on bottom surface one end of second stripper, its one end and institute State the second stripper to be hinged, the expansion link of the other end and the second stripper cylinder is hinged.

In such scheme, the driving belt component includes the cooperate drive pulley and follower belt being driven, institute The output belt pulley and the tubing drive for stating follower belt are coaxially disposed.

In such scheme, the belt pulley of one end of the drive pulley is driven by motor, the belt pulley of the other end with it is right The input belt pulley of the follower belt is answered to overlap, the input belt pulley spacer sleeve of remaining follower belt is mounted in the active Driven on the inside of belt and by the drive pulley and rotated.

In such scheme, the output end on the unloading rack positioned at each tubing transmission mechanism is provided with one group of use The channel space being adapted with the steel pipe is formed between the locating wheel for limiting tubing direction, locating wheel described in two.

The utility model, by setting the first discharge component and the second discharge component respectively on unloading rack, passes through control Unit is controlled, and the bilateral that can be realized in unloading rack realizes two-way automatic discharging, and automaticity is high, and control is accurate, efficiency high.

Brief description of the drawings

Fig. 1 is top view of the present utility model；

Fig. 2 is front view of the present utility model；

Fig. 3 is sectional views of the Fig. 2 along the discharge component of A-A directions first；

Fig. 4 is sectional views of the Fig. 2 along the discharge component of B-B directions second.

Embodiment

The utility model is described in detail with reference to Figure of description.

As shown in Figure 1 and Figure 2, the utility model provides a kind of two-way device for discharging of full-automatic pipe, including unloading rack 8, The both sides of unloading rack 8 be respectively equipped with the first discharge component in some groups of the first discharge components and the second discharge component, every group and Second discharge component, which misplaces, to be oppositely arranged.Wherein the first discharge component includes the first stripper 1, and the first stripper 1 passes through the One fixed strip 11 connects the first stripper cylinder 3, and drives the first stripper 1 to rotate discharging by the first stripper cylinder 3.

Specifically, the upper surface infolding of the first stripper 1 forms two-sided ramp structure, the two-sided ramp structure includes close The first slope 12 of tubing and the second slope 13 being mated with, the length of first slope 12 are less than the length on the second slope 13, Therefore the gradient of first slope 12 is more than the gradient on the second slope 13.The two ends on the slope 13 of first slope 12 and second are equipped with water It is flat to accept table top 14.

With reference to Fig. 1, Fig. 3, the first fixed strip 11 is arranged on bottom surface one end of the first stripper 1, its one end and the first discharging Plate 1 is hinged, and the expansion link 31 of the other end and the first stripper cylinder 3 is hinged.When needing discharging, tubing is accepted by level Table top 14 enters the first stripper 1, and because first slope 12 is relatively steeper, tubing can slide to the first stripper 1 quickly, and first The driving piston rod 31 of stripper cylinder 3 extends, and drives the first stripper 1 to tilt turnover so that tubing is along the side of the second slope 13 To being laid down quickly.

With reference to Fig. 1, Fig. 4, the second discharge component includes the second stripper 2, and the second stripper 2 is connected by the second fixed strip 21 The second stripper cylinder 4 is connect, and drives the second stripper 2 to rotate discharging by the second stripper cylinder 4.

Specifically, the upper surface infolding of the second stripper 2 forms two-sided ramp structure, the two-sided ramp structure includes close 3rd slope 22 of tubing and the 4th slope 23 being mated with, the length on the 3rd slope 22 are more than the length on the 4th slope 23, Therefore the gradient on the 3rd slope 22 is less than the gradient on the 4th slope 23.The two ends on the 3rd slope 22 and the 4th slope 23 are equipped with water It is flat to accept table top 24.

Second fixed strip 21 is arranged on bottom surface one end of the second stripper 2, and its one end is hinged with the second stripper 2, another The expansion link 41 with the second stripper cylinder 4 is held to be hinged.When needing discharging, tubing accepts table top 24 by level and enters the Two strippers 2, tubing is slid to the second stripper 1 by the 3rd slope 22, and the second stripper cylinder 4 driving piston rod 41 is stretched It is long, drive the second stripper 2 to tilt turnover so that tubing being laid down quickly along the direction of the 4th slope 23.

The utility model also includes control unit, and control unit connects with the first discharging cylinder 3 and the second discharging cylinder 4 respectively Connect, under the control of the control unit, tubing is realized realize automatic bidirectional discharging in the both sides of unloading rack 8 as needed, automatically Change degree is high, and control is accurate, substantially increases operating efficiency.

With reference to Fig. 1, Fig. 2, the outside of every group of second discharge component is side by side provided with one group of tubing transmission mechanism, tubing transmission Mechanism include tubing drive 5, tubing drive 5 by driving belt component drive rotate, and will still uncut tubing successively Down transmit.

Driving belt component includes the drive pulley 7 and follower belt 71 being driven that cooperate, one end of drive pulley 7 Belt pulley is driven by motor, and the belt pulley of the other end is overlapped with the input belt pulley 72 of corresponding follower belt 71, remaining driven skin Mounted in the inner side of drive pulley 7 and rotation is driven by drive pulley 7 with 71 spacer sleeve of input belt pulley 72.Follower belt 71 it is defeated Go out belt pulley 73 to be coaxially disposed with tubing drive 5, and drive the sequential transmissions of tubing drive 5, tubing passes through tubing drive 5 Hand on.

In transmit process, in order to ensure that tubing direction in transmit process does not occur to be located on crooked variation, unloading rack 8 The output end of each tubing transmission mechanism is provided between one group of locating wheel 6 for being used to limit tubing direction, two locating wheels 6 and formed The channel space being adapted with tubing.The setting of locating wheel 6 effectively prevent tubing and be tilted in transmit process.

The utility model, by setting the first discharge component and the second discharge component respectively on unloading rack, passes through control Unit is controlled, and the bilateral that can be realized in unloading rack realizes two-way automatic discharging, and automaticity is high, and control is accurate, efficiency high.

The utility model is not limited to above-mentioned preferred forms, and anyone should learn that under enlightenment of the present utility model The structure change made, it is every that there is same or like technical scheme with the utility model, each fall within guarantor of the present utility model Within the scope of shield.

Claims (9)

1. the two-way device for discharging of full-automatic pipe, including unloading rack, it is characterised in that if the both sides of the unloading rack are respectively equipped with What dry group dislocation was oppositely arranged：

First discharge component, including the first stripper, first stripper connect the first stripper gas by the first fixed strip Cylinder, and drive first stripper to rotate discharging by the first stripper cylinder；

Second discharge component, including the second stripper, second stripper connect the second stripper gas by the second fixed strip Cylinder, and drive second stripper to rotate discharging by the second stripper cylinder；

Also include control unit, be connected respectively with the first discharging cylinder and the second discharging cylinder, and realize automatic double To discharging.

2. the two-way device for discharging of full-automatic pipe as claimed in claim 1, it is characterised in that the second discharge component described in every group Outside side by side provided with one group of tubing transmission mechanism, it includes tubing drive, and the tubing drive is by driving belt group Part, which drives, to be rotated, and tubing is passed into station.

3. the two-way device for discharging of full-automatic pipe as claimed in claim 1, it is characterised in that the upper end of first stripper Face infolding forms two-sided ramp structure, the two-sided ramp structure include close to the tubing first slope and be mated with the Two slopes, the length of the first slope is less than the length on second slope.

4. the two-way device for discharging of full-automatic pipe as claimed in claim 3, it is characterised in that first fixed strip is arranged on Bottom surface one end of first stripper, its one end is hinged with first stripper, the other end and the first stripper gas The expansion link of cylinder is hinged.

5. the two-way device for discharging of full-automatic pipe as claimed in claim 1, it is characterised in that the upper end of second stripper Face infolding forms two-sided ramp structure, the two-sided ramp structure include close to the 3rd slope of the tubing and be mated with the Four slopes, the length on the 3rd slope is more than the length on the 4th slope.

6. the two-way device for discharging of full-automatic pipe as claimed in claim 5, it is characterised in that second fixed strip is set In bottom surface one end of second stripper, its one end is hinged with second stripper, the other end and second stripper The expansion link of cylinder is hinged.

7. the two-way device for discharging of full-automatic pipe as claimed in claim 2, it is characterised in that the driving belt component includes Cooperate the drive pulley and follower belt being driven, and the output belt pulley of the follower belt and the tubing drive are coaxial Set.

8. the two-way device for discharging of full-automatic pipe as claimed in claim 7, it is characterised in that one end of the drive pulley Belt pulley is driven by motor, and the input belt pulley of the belt pulley of the other end and the corresponding follower belt is overlapped, remaining it is described from The input belt pulley spacer sleeve of dynamic belt on the inside of the drive pulley and drives rotation by the drive pulley.

9. the two-way device for discharging of full-automatic pipe as claimed in claim 2, it is characterised in that be located on the unloading rack each The output end of the individual tubing transmission mechanism is provided with one group of locating wheel for being used to limit tubing direction, shape between locating wheel described in two Into the channel space being adapted with tubing.