CN219057651U - Pipe feeding machine - Google Patents

Abstract

The utility model discloses a pipe feeding machine which comprises a material pocket device, a first conveying device and a second conveying device, wherein the first conveying device is connected with the material pocket device, the second conveying device is arranged on one side of a first conveying mechanism, a pipe enters the second conveying device after passing through the pipe of the first conveying mechanism, and the second conveying device conveys the pipe to a host side of a pipe cutting device. The pipe feeding machine can realize mixed feeding of pipes such as round pipes, square pipes, rectangular pipes and the like.

Description

Pipe feeding machine

Technical Field

The utility model relates to the technical field of pipe processing, in particular to a pipe feeding machine.

Background

The pipe cutting and feeding machine generally comprises a semi-automatic feeding machine and a full-automatic feeding machine, wherein the semi-automatic feeding machine can realize the butt joint with the pipe cutting machine only by manual auxiliary intervention, the feeding time is long, and the feeding performance is unstable; the full-automatic feeding machine has high automation degree and does not need manual intervention, but the current full-automatic pipe cutting and feeding machine cannot realize mixed feeding, such as round pipes, square pipes, rectangular pipes and the like.

Therefore, a new pipe feeder is needed to solve the above technical problems.

Disclosure of Invention

The utility model provides a pipe feeding machine which can realize mixed feeding of pipes such as round pipes, square pipes, rectangular pipes and the like.

In a first aspect, an embodiment of the present utility model provides a pipe feeding machine, including a material-holding device, a first conveying device, and a second conveying device, where the first conveying device is connected with the material-holding device, and the material-holding device is used for placing a plurality of pipes and conveying the plurality of pipes to the first conveying device; the material feeding device comprises a material feeding belt, a material feeding belt support and a material feeding driving mechanism, one end of the material feeding belt is arranged on one side of the material feeding belt support, the other end of the material feeding belt is arranged on the other side of the material feeding belt support, the middle area of the material feeding belt is sunken towards the bottom of the material feeding belt support to form a material feeding space, the material feeding space is used for accommodating a plurality of pipes, the material feeding driving mechanism is connected with one end of the material feeding belt, and the material feeding belt can be wound on a driving shaft of the material feeding driving mechanism so as to reduce the material feeding space, and the pipes in the material feeding space enter the first conveying device;

the first conveying device comprises a first bracket, a limiting mechanism and a first conveying mechanism, wherein the first conveying mechanism is arranged on the first bracket and is used for conveying pipes to move along the horizontal direction, the height limiting mechanism is arranged on the front side of the first conveying mechanism and protrudes out of the first conveying mechanism, the height limiting mechanism is provided with a height limiting channel, and the height limiting mechanism is used for enabling the pipes to sequentially pass through the height limiting channel and enter the first conveying mechanism again;

the second conveying device is arranged on one side of the first conveying mechanism, and the pipe passes through the pipe of the first conveying mechanism and then enters the second conveying device, and the second conveying device conveys the pipe to the host side of the pipe cutting device.

According to an aspect of the embodiment of the present utility model, the first conveying mechanism includes two sprockets, which are respectively located at two sides of the first bracket, and a chain for connecting the two sprockets;

the first conveying mechanism further comprises a stirring plate, the stirring plate is connected with the front side chain wheels of the two chain wheels, and the stirring plate is used for stirring the pipe.

According to an aspect of the embodiment of the present utility model, the kick-out plate is detachably connected to the front side sprocket.

According to an aspect of the embodiment of the utility model, the first conveying device further comprises a connecting mechanism, the connecting mechanism comprises an adjusting rail, an adjusting cylinder and an adjusting rod, the adjusting rail is used for connecting the material pocket device with the first conveying mechanism, the adjusting rod is hinged below the adjusting rail, the adjusting cylinder is hinged at the bottom of one side, close to the material pocket mechanism, of the adjusting rail, and two ends of the adjusting rail can swing under the action of the adjusting cylinder.

According to an aspect of the embodiment of the utility model, the height limiting mechanism comprises a height limiting frame and a first baffle plate, wherein the height limiting frame is provided with the height limiting channel, and the first baffle plate is movably connected with the height limiting frame so as to enable the first baffle plate to move along the height direction of the height limiting channel, so that the opening size of the height limiting channel can be adjusted;

the first conveying device further comprises a slope and a pushing cylinder, the slope is arranged on the rear side of the first conveying mechanism and protrudes out of the first conveying mechanism, the slope is used for limiting movement of the pipe on the first conveying mechanism, and the pushing cylinder is arranged below the slope so as to push the pipe fitting on the front side of the slope to cross the slope and fall on the second conveying device.

According to an aspect of the embodiment of the utility model, the second conveying device comprises a second bracket and a second conveying mechanism, the second conveying mechanism comprises a driving assembly, an extension arm and a movable bracket, the driving assembly is connected with the second bracket, the extension arm is connected with the driving assembly, the driving assembly is used for driving the extension arm to move to the main machine side of the pipe cutting device, the movable bracket is movably connected with one end of the extension arm far away from the material pocket device, the surfaces of the extension arm, which are opposite to the movable bracket, are inclined surfaces, and a V-shaped clamping groove can be formed between the two inclined surfaces, so that a pipe can fall into the V-shaped clamping groove after passing through the inclined surface.

According to an aspect of the embodiment of the utility model, the second conveying mechanism further comprises a movable air cylinder, the bottom end of the movable air cylinder is hinged with the extending arm, the piston rod end of the movable air cylinder is hinged with the movable support, the piston rod of the movable air cylinder extends out, the V-shaped clamping groove is formed, the piston rod of the movable air cylinder is retracted, the V-shaped clamping groove disappears, and the pipe in the V-shaped clamping groove is blanked.

According to an aspect of the embodiment of the present utility model, the driving assembly includes two sprockets respectively disposed at both sides of the second bracket, and a chain for connecting the two sprockets, and the extension arm is fixed to the chain.

According to an aspect of the embodiment of the utility model, the device further comprises a receiving device, the receiving device comprises a receiving cylinder and a receiving plate, the receiving cylinder is arranged at one end of the first conveying mechanism, which is far away from the material pocket device, the receiving plate is fixed at the top of the receiving cylinder and is close to the V-shaped clamping groove, and the receiving plate can move up and down along the vertical direction under the action of the receiving cylinder, so that a pipe firstly falls on the receiving plate after passing through the slope, the moving cylinder drives the receiving plate to descend, and the pipe falls in the V-shaped clamping groove.

According to an aspect of the embodiment of the utility model, a second baffle is arranged on one side of the receiving plate away from the material pocket device.

According to the pipe feeding machine provided by the embodiment of the utility model, the pocket driving mechanism of the pocket device drives the pocket belt to enable the pocket belt to be wound on the output shaft of the pocket belt, so that the pocket space is reduced, pocket materials are realized, the pipes are mutually extruded in the pocket belt and conveyed to the first conveying mechanism, the height limiting frame is matched, only one pipe is allowed to enter the height limiting channel through the height limiting frame, and then enters the second conveying device after being driven by the first conveying mechanism to move in the horizontal direction, and the second conveying device conveys the pipe to the host side of the pipe cutting device, so that feeding is completed. The pocket material space of pocket material mechanism can place pipe and pipe, rectangular pipe etc. different shapes to cooperate the limit for height frame only to make a tubular product pass through and get into first conveying mechanism, need not manual intervention.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading the following detailed description of non-limiting embodiments, taken in conjunction with the accompanying drawings, in which like reference characters designate the same or similar features, and in which the figures are not to scale.

Fig. 1 shows a schematic diagram of the overall structure of a pipe feeding machine according to an embodiment of the present utility model;

fig. 2 shows a front view of a connection mechanism in a pipe feeding machine according to an embodiment of the present utility model;

FIG. 3 shows a side view of a connection mechanism in a pipe feeder provided by an embodiment of the present utility model;

fig. 4 shows a front view of a second conveying device in a pipe feeding machine according to an embodiment of the present utility model;

fig. 5 shows a front view of a receiving device in a pipe feeder according to an embodiment of the present utility model.

In the figure:

10 pocket device, 101 pocket belt, 102 pocket belt support, 103 pocket driving mechanism, 20 first conveyor, 201 first support, 202 first conveyor, 203 deflector plate, 204 adjustment track, 205 adjustment cylinder, 206 adjustment lever, 207 height-limiting frame, 208 first baffle, 209 slope, 210 pushing cylinder, 30 second conveyor, 301 second support, 302 second conveyor, 303 extension arm, 304 movable support, 305 movable cylinder, 307V-shaped clamping groove, 40 tubular product, 50 receiving device, 501 receiving cylinder, 502 receiving plate, 503 second baffle.

Detailed Description

Features and exemplary embodiments of various aspects of the present utility model will be described in detail below, and in order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail below with reference to the accompanying drawings and the detailed embodiments. It should be understood that the specific embodiments described herein are merely configured to illustrate the utility model and are not configured to limit the utility model. It will be apparent to one skilled in the art that the present utility model may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the utility model by showing examples of the utility model.

The directional terms appearing in the following description are those directions shown in the drawings and do not limit the specific structure of the utility model. In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

It will be understood that when a layer, an area, or a structure is described as being "on" or "over" another layer, another area, it can be referred to as being directly on the other layer, another area, or another layer or area can be included between the layer and the other layer, another area. And if the component is turned over, that layer, one region, will be "under" or "beneath" the other layer, another region.

For a better understanding of the present utility model, a pipe feeding machine according to an embodiment of the present utility model will be described in detail with reference to fig. 1 to 5.

The embodiment of the utility model discloses a pipe feeding machine, which comprises a material pocket device 10, a first conveying device 20 and a second conveying device 30, wherein the first conveying device 20 is connected with the material pocket device 10, and the material pocket device 10 is used for placing a plurality of pipes 40 and conveying the pipes 40 to the first conveying device 20; the pocket material device 10 includes pocket material area 101, pocket material area support 102 and pocket material actuating mechanism 103, the one end setting of pocket material area 101 is in one side of pocket material area support 102, the other end sets up the opposite side at pocket material area support 102, the middle part region of pocket material area 101 is sunken to the bottom of pocket material area support 102 and is formed pocket material space, pocket material space is used for placing a plurality of tubular product 40, pocket material actuating mechanism 103 is connected with the one end of pocket material area 101, pocket material actuating mechanism 103 can twine pocket material area 101 in its drive shaft, in order to reduce pocket material space, and make a plurality of tubular products 40 in the pocket material space get into first conveyor 20. Alternatively, the pocket driving mechanism 103 may be a hoist apparatus.

The first conveying device 20 includes a first support 201, a height limiting mechanism and a first conveying mechanism 202, the first conveying mechanism 202 is disposed on the first support 201 and is used for conveying the pipes 40 to move along a horizontal direction, the height limiting mechanism is disposed on a front side of the first conveying mechanism 202 and protrudes from the first conveying mechanism 202, the height limiting mechanism has a height limiting channel, and the height limiting mechanism is used for enabling the pipes 40 to sequentially pass through the height limiting channel and then enter the first conveying mechanism 202 again.

The second conveying device 30 is disposed at one side of the first conveying mechanism 202, the pipe 40 passes through the pipe 40 of the first conveying mechanism 202 and then enters the second conveying device 30, and the second conveying device 30 conveys the pipe 40 to the main machine side of the pipe cutting device.

According to the pipe feeding machine provided by the embodiment of the utility model, the pocket driving mechanism 103 of the pocket device 10 drives the pocket belt 101 to roll up the pocket belt 101 on the output shaft thereof, so that the pocket space is reduced, pocket materials are realized, the pipes 40 are mutually extruded in the pocket belt 101 and conveyed to the first conveying mechanism 202, and are matched with the height limiting frame 207, only one pipe 40 is allowed to enter the height limiting channel through the height limiting frame 207 and then enter the second conveying device 30 after being driven by the first conveying mechanism 202 to move in the horizontal direction, and the second conveying device 30 conveys the pipes 40 to the main machine side of the pipe cutting device, so that feeding is completed. The pocket material space of the pocket material mechanism can be used for placing the tubular products 40 with different shapes such as round tubes, square tubes, rectangular tubes and the like, and only one tubular product 40 passes through and enters the first conveying mechanism 202 by matching with the height limiting frame 207, so that manual intervention is not required.

In some alternative embodiments, the first conveying mechanism 202 includes two sprockets and a chain, the two sprockets are respectively located on two sides of the first support 201, the chain is used for connecting the two sprockets, and the transmission efficiency of the sprocket mechanism is high and the transmission is stable.

Further, the first conveying mechanism 202 further comprises a material stirring plate 203, the material stirring plate 203 is connected with the front side chain wheel of the two chain wheels, and the material stirring plate 203 is used for stirring the pipe 40. Alternatively, the number of the material pulling plates 203 may be multiple, the material pulling plates 203 are spaced apart from each other by the same distance, and only one pipe 40 can be placed between two adjacent material pulling plates 203, so that the plurality of pipes 40 can be separated, and the plurality of pipes 40 sequentially pass through the height limiting frame 207.

Further, the kick-out plate 203 is detachably connected to the front sprocket, so that it can be replaced according to the size and type (square tube or rectangular tube, etc.) of the pipe 40.

In some alternative embodiments, the first conveying device 20 further includes a connection mechanism, the connection mechanism includes an adjustment track 204, an adjustment cylinder 205, and an adjustment rod 206, the adjustment track 204 is used for connecting the material-holding device 10 and the first conveying mechanism 202, the adjustment rod 206 is hinged below the adjustment track 204, the adjustment cylinder 205 is hinged at the bottom of one side of the adjustment track 204, which is close to the material-holding mechanism, two ends of the adjustment track 204 can swing under the action of the adjustment cylinder 205, and the angle of the adjustment track 204 can be adjusted according to the type (circular tube, square tube, rectangular tube, etc.) of the pipe 40, so that different types of pipe 40 can freely slide onto the first conveying mechanism 202. It will be appreciated that when the pipe 40 is a square or rectangular pipe, the angle of the adjustment track 204 may be increased appropriately, i.e. the gradient of the adjustment track 204 may be increased, so that the square or rectangular pipe may also fall onto the first conveying mechanism 202 via the adjustment track 204.

Alternatively, the bottom of the adjusting lever 206 may be connected to a worm gear lifting mechanism, so that the angle of the adjusting rail 204 can be conveniently adjusted.

In some alternative embodiments, the height limiting mechanism includes a height limiting frame 207 and a first baffle plate 208, where the height limiting frame 207 has a height limiting channel, and the first baffle plate 208 is movably connected with the height limiting frame 207, so that the first baffle plate 208 can move along the height direction of the height limiting channel to adjust the opening size of the height limiting channel, so that the height of the first baffle plate 208 can be adjusted according to the pipe diameter of the pipe 40, that is, the size of the opening of the height limiting channel can be adjusted, so as to be suitable for feeding of pipes 40 with different pipe diameter sizes.

Further, the first conveying device 20 further includes a slope 209 and a pushing cylinder 210, the slope 209 is disposed at the rear side of the first conveying mechanism 202 and protrudes from the first conveying mechanism 202, the slope 209 is used for limiting the movement of the pipe 40 on the first conveying mechanism 202, the pushing cylinder 210 is disposed below the slope 209 to push the pipe on the front side of the slope 209 to pass over the slope 209 and fall on the second conveying mechanism, and the slope 209 can increase the potential energy of the pipe 40, so that the pipe 40 can fall on the second conveying device 30. Optionally, a pushing plate is fixed on a piston rod of the pushing cylinder 210, and the pushing cylinder 210 may be obliquely disposed.

In some alternative embodiments, the second conveying device 30 includes a second support 301 and a second conveying mechanism, where the second conveying mechanism includes a driving component 302, an extension arm 303 and a movable support 304, where the driving component 302 is connected to the second support 301, the extension arm 303 is connected to the driving component 302, the driving component 302 is used to drive the extension arm 303 to move to the host side of the pipe cutting device, the movable support 304 is movably connected to one end of the extension arm 303 away from the pocket device 10, the surfaces of the extension arm 303 opposite to the movable support 304 are inclined surfaces, and a V-shaped slot 307 can be formed between the two inclined surfaces, so that the pipe 40 falls in the V-shaped slot 307 after passing over the slope 209, and the V-shaped slot 307 can avoid the pipe 40 on the extension arm 303 from shaking, thereby being beneficial to increasing stability in the moving process of the pipe 40.

Further, the second conveying mechanism further comprises a movable air cylinder 305, the bottom end of the movable air cylinder 305 is hinged with the extending arm 303, the piston rod end of the movable air cylinder 305 is hinged with the movable support 304, a V-shaped clamping groove is formed, the piston rod of the movable air cylinder 305 is retracted, the V-shaped clamping groove disappears, the pipe 40 in the V-shaped clamping groove is blanked, and after blanking is completed, the extending arm 303 returns to the initial position, namely the feeding side of the feeding machine.

Alternatively, the driving assembly 302 includes two sprockets respectively disposed at both sides of the second bracket 301, and a chain for connecting the two sprockets, on which the extension arm 303 is fixed, and a sprocket mechanism having high transmission efficiency and capable of driving the extension arm 303 to move smoothly.

In some optional embodiments, the pipe bending machine further comprises a material receiving device 50, the material receiving device 50 comprises a material receiving cylinder 501 and a material receiving plate 502, the material receiving cylinder 501 is arranged at one end of the first conveying mechanism 202 far away from the material receiving device 10, the material receiving plate 502 is fixed at the top of the material receiving cylinder 501 and is arranged close to the V-shaped clamping groove, the material receiving plate 502 can move up and down in the V-shaped clamping groove along the vertical direction under the action of the material receiving cylinder 501, so that the pipe 40 firstly falls on the material receiving plate 502 after passing over the slope 209, the movable cylinder 305 drives the material receiving plate 502 to descend, and the pipe 40 falls in the V-shaped clamping groove again, so that the pipe 40 can fall in the V-shaped clamping groove accurately and stably.

Further, a second baffle 503 is disposed on a side of the receiving plate 502 away from the pocket 10, so as to prevent the pipe 40 from sliding off the receiving plate 502.

The pipe feeding machine of the embodiment of the utility model has the following specific working processes:

the pipe 40 is conveyed onto the chain of the first conveying mechanism 202 by the material pocket belt 101, the pipe 40 sequentially enters the first conveying mechanism 202 again through the height limiting mechanism, the pipe 40 is conveyed to the slope 209 by the chain of the first conveying mechanism 202, the slope 209 blocks the conveyed pipe 40, the material receiving cylinder 501 of the material receiving device 50 is lifted, the material pushing cylinder 210 pushes the pipe 40 close to the slope 209, the pipe 40 passes through the slope 209 and falls onto the material receiving device 50, the material receiving cylinder 501 of the material receiving device 50 is retracted, the pipe 40 descends into the V-shaped clamping groove 307 of the second conveying device 30, the second conveying device 30 drives the extending arm 303 to extend through the chain, the pipe 40 is conveyed to the center of the pipe cutting device chuck, the movable support 304 of the second conveying device 30 is overturned under the action of the movable cylinder 305, the V-shaped clamping groove 307 disappears, the pipe 40 falls on the follow-up support of the pipe cutting device, and the second conveying device 30 is retracted to the original position of the pipe feeder to wait for the next feeding.

In accordance with the above embodiments of the utility model, these embodiments are not exhaustive of all details, nor are they intended to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model and various modifications as are suited to the particular use contemplated. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. The pipe feeding machine is characterized by comprising a material pocket device, a first conveying device and a second conveying device, wherein the first conveying device is connected with the material pocket device, and the material pocket device is used for placing a plurality of pipes and conveying the pipes to the first conveying device; the material feeding device comprises a material feeding belt, a material feeding belt support and a material feeding driving mechanism, one end of the material feeding belt is arranged on one side of the material feeding belt support, the other end of the material feeding belt is arranged on the other side of the material feeding belt support, the middle area of the material feeding belt is sunken towards the bottom of the material feeding belt support to form a material feeding space, the material feeding space is used for accommodating a plurality of pipes, the material feeding driving mechanism is connected with one end of the material feeding belt, and the material feeding belt can be wound on a driving shaft of the material feeding driving mechanism so as to reduce the material feeding space, and the pipes in the material feeding space enter the first conveying device;

the first conveying device comprises a first bracket, a height limiting mechanism and a first conveying mechanism, wherein the first conveying mechanism is arranged on the first bracket and is used for conveying pipes to move along the horizontal direction, the height limiting mechanism is arranged at the front side of the first conveying mechanism and protrudes out of the first conveying mechanism, the height limiting mechanism is provided with a height limiting channel, and the height limiting mechanism is used for enabling the pipes to sequentially pass through the height limiting channel and enter the first conveying mechanism again;

the second conveying device is arranged on one side of the first conveying mechanism, and the pipe passes through the pipe of the first conveying mechanism and then enters the second conveying device, and the second conveying device conveys the pipe to the host side of the pipe cutting device.

2. The pipe feeding machine according to claim 1, wherein the first conveying mechanism comprises two chain wheels and chains, the two chain wheels are respectively positioned at two sides of the first bracket, and the chains are used for connecting the two chain wheels;

the first conveying mechanism further comprises a stirring plate, the stirring plate is connected with the front side chain wheels of the two chain wheels, and the stirring plate is used for stirring the pipe.

3. The tubing loader of claim 2, wherein said kick-out plate is removably connected to said front sprocket.

4. The pipe feeding machine according to claim 1, wherein the first conveying device further comprises a connecting mechanism, the connecting mechanism comprises an adjusting rail, an adjusting cylinder and an adjusting rod, the adjusting rail is used for connecting the material pocket device with the first conveying mechanism, the adjusting rod is hinged below the adjusting rail, the adjusting cylinder is hinged at the bottom of one side, close to the material pocket mechanism, of the adjusting rail, and two ends of the adjusting rail can swing under the action of the adjusting cylinder.

5. The pipe feeding machine according to claim 1, wherein the height limiting mechanism comprises a height limiting frame and a first baffle plate, the height limiting frame is provided with the height limiting channel, and the first baffle plate is movably connected with the height limiting frame so that the first baffle plate can move along the height direction of the height limiting channel to adjust the opening size of the height limiting channel;

the first conveying device further comprises a slope and a pushing cylinder, the slope is arranged on the rear side of the first conveying mechanism and protrudes out of the first conveying mechanism, the slope is used for limiting movement of the pipe on the first conveying mechanism, and the pushing cylinder is arranged below the slope so as to push the pipe fitting on the front side of the slope to cross the slope and fall on the second conveying device.

6. The pipe feeding machine according to claim 5, wherein the second conveying device comprises a second bracket and a second conveying mechanism, the second conveying mechanism comprises a driving assembly, an extending arm and a movable bracket, the driving assembly is connected with the second bracket, the extending arm is connected with the driving assembly, the driving assembly is used for driving the extending arm to move to the main machine side of the pipe cutting device, the movable bracket is movably connected with one end of the extending arm far away from the material pocket device, the surfaces of the extending arm, which are opposite to the movable bracket, are inclined surfaces, and a V-shaped clamping groove can be formed between the two inclined surfaces, so that a pipe can fall into the V-shaped clamping groove after passing through the slope.

7. The pipe feeding machine according to claim 6, wherein the second conveying mechanism further comprises a movable cylinder, the bottom end of the movable cylinder is hinged with the extending arm, the piston rod end of the movable cylinder is hinged with the movable support, the piston rod of the movable cylinder extends out, the V-shaped clamping groove is formed, the piston rod of the movable cylinder is retracted, the V-shaped clamping groove disappears, and the pipe in the V-shaped clamping groove is blanked.

8. The tubing feeder of claim 6, wherein the drive assembly comprises two sprockets disposed on opposite sides of the second bracket, respectively, and a chain for connecting the two sprockets, the extension arm being secured to the chain.

9. The pipe feeding machine according to claim 7, further comprising a receiving device, wherein the receiving device comprises a receiving cylinder and a receiving plate, the receiving cylinder is arranged at one end of the first conveying mechanism far away from the material pocket device, the receiving plate is fixed at the top of the receiving cylinder and is close to the V-shaped clamping groove, the receiving plate can move up and down along the vertical direction under the action of the receiving cylinder, so that the pipe falls onto the receiving plate after crossing the slope, the moving cylinder drives the receiving plate to descend, and the pipe falls into the V-shaped clamping groove.

10. The pipe feeder of claim 9, wherein a second baffle is disposed on a side of the receiving plate remote from the pocket.

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