CN218575166U - Double-end chamfering device - Google Patents

Abstract

The utility model provides a double-end chamfering device, which relates to a pipe end face machining device and comprises a chamfering machine, wherein the feed end of the chamfering machine is provided with a conveying frame, the conveying frame is provided with a conveying belt, the discharge end of the conveying belt is provided with a discharge port, and the height of the discharge port is higher than the feed height of the chamfering machine; the feed end of conveyer belt is provided with at least one finished product feed bin, one side that the conveyer belt was kept away from to the finished product feed bin is provided with and connects the material slope, it is provided with promotion feeding mechanism to connect the material slope to be close to one side of conveyer belt, it is provided with the mount to promote one side that feeding mechanism is close to the conveyer belt, the height that highly is higher than or equals the conveyer belt on mount top. The beneficial effects of the utility model reside in that, it can solve the difference in height problem between beveler and its preorder processing equipment to realize the automatic feeding of tubular product.

Description

Double-end chamfering device

Technical Field

The utility model relates to a tubular product terminal surface processing equipment, concretely relates to double-end chamfer device.

Background

The chamfering machine is a small-sized precision machine tool which is specially used for the deburring of products of processing modes such as die manufacturing, hardware machinery, machine tool manufacturing, hydraulic parts, valve manufacturing, chamfering of textile machinery, milling and planing. With the rapid development of the mechanical automation technology, in order to widen the processing range of the pipe processing production line and realize one-line processing of pipes, the chamfering machine gradually starts to be combined into various pipe production lines. However, because each processing device in the production line is usually produced by different manufacturers and has different design requirements, and a certain height difference exists between each processing device in a general production line, the existing pipe processing production line generally can arrange a carrying robot between the chamfering machine and the adjacent production device to realize automatic material conveying action or directly convey materials manually, so that the pipe can be smoothly rolled into the chamfering machine. However, in the actual production process, the cost of the transfer robot is high, and the transfer robot is not suitable for pipe processing production lines with few stations and manufacturers with less processing amount; the manual material conveying efficiency is low, and the labor cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem that solve provides a double-end chamfer device with promote material loading function to solve the difference in height problem between beveler and its preorder processing equipment, and realize the automatic feeding of tubular product.

In order to solve the technical problem, the utility model provides a technical scheme does: a double-head chamfering device comprises a chamfering machine, wherein a conveying frame is arranged at the feeding end of the chamfering machine, a conveying belt is arranged on the conveying frame, a discharging port is arranged at the discharging end of the conveying belt, and the discharging port is higher than the feeding height of the chamfering machine; the feed end of conveyer belt is provided with at least one finished product feed bin, one side that the conveyer belt was kept away from to the finished product feed bin is provided with and connects the material slope, it is provided with promotion feeding mechanism to connect the material slope to be close to one side of conveyer belt, it is provided with the mount to promote one side that feeding mechanism is close to the conveyer belt, the height that highly is higher than or equals the conveyer belt on mount top. In the pipe processing production line, after the processing is completed at the front-end station, the pipe can be directly discharged into the finished product bin, then the pipe is conveyed to the conveying belt with a certain height through the lifting and feeding mechanism in the finished product bin, the upper part of the feeding end of the chamfering machine is conveyed through the conveying belt, and finally the pipe is smoothly discharged into the chamfering machine through the discharging port, so that the problem of height difference between the chamfering machine and the preorder processing equipment of the chamfering machine is solved, and the automatic feeding of the pipe is realized.

Furthermore, the lifting and feeding mechanism comprises a push plate, the push plate is vertically and slidably mounted between the fixed frame and the material receiving slope, at least two movable vertical plates are arranged at the upper end of the push plate in parallel, a fixed ladder is arranged between any two adjacent movable vertical plates, the fixed ladder is fixedly mounted in the finished product bin, the top of the fixed ladder can be higher than the movable vertical plate at one side far away from the material receiving slope, and the top of the fixed ladder can be lower than the movable vertical plate at one side near the material receiving slope; the top of the movable vertical plate closest to the material receiving slope can be lower than the material receiving slope, and the top of the movable vertical plate closest to the fixing frame can be higher than the fixing frame. Like this the utility model discloses can be directly promote tubular product from the low side one-level ground that connects the material slope to the top of mount through the vertical slip of activity riser to finally with the leading-in conveyer belt of tubular product.

Furthermore, the top end of the fixing frame, the top end of the fixing ladder and the top end of the movable vertical plate are all inclined planes, so that the pipe can be ensured to actively move forwards.

Further, the discharge gate of conveyer belt still is provided with limit switch and pushing equipment, and like this when tubular product is carried to discharge gate position department, the utility model discloses accessible limit switch responds to it to treat that limit switch to this tubular product back is sensed, release the conveyer belt with it through pushing equipment.

Furthermore, a transition bridge is further arranged at the discharge port of the conveyor belt, one end, far away from the conveyor belt, of the transition bridge is inclined downwards, and the lower end of the transition bridge is higher than the feeding height of the chamfering machine. When the conveyer belt carries out the unloading action like this, its accessible this transition bridge cushions tubular product, avoids tubular product to take place the damage because of the great distance of proruption whereabouts.

Further, the chamfering machine comprises a chamfering machine frame, the chamfering machine frame is located on one side of the conveyor belt discharge port, a feeding guide rail is arranged at the upper end of the chamfering machine frame, a chamfering mechanism I and a chamfering mechanism II are connected to the feeding guide rail in a sliding mode, and a clamping mechanism, a material length detection mechanism and a lifting moving feeding mechanism are arranged between the chamfering mechanism I and the chamfering mechanism II. When the pipe is conveyed to the chamfering machine, the utility model can convey the pipe to the clamping mechanism through the lifting movable feeding mechanism, and then the length detection mechanism detects whether the length of the pipe meets the requirement; after the chamfering mechanism meets the requirements, the chamfering mechanism is clamped through the clamping mechanism, and then corresponding chamfering processing is carried out on the chamfering mechanism through the chamfering mechanism I and the chamfering mechanism II.

Furthermore, the lifting movable feeding mechanism comprises a fixed material storage plate and a lifting base, the fixed material storage plate is fixedly mounted on the first chamfering mechanism and/or the second chamfering mechanism, the lifting base is vertically and slidably mounted on one side, close to the conveyor belt, of the chamfering frame, the upper end of the lifting base is horizontally and slidably connected with at least one movable material storage plate along the feeding direction, the movable material storage plate and the fixed material storage plate are arranged in parallel, material storage grooves are formed in the tops of the movable material storage plate and the fixed material storage plate, and the number of the material storage grooves in the movable material storage plate is larger than that of the material storage grooves in the fixed material storage plate. Like this when transporting tubular product to the processing station in the middle of chamfering mechanism one, chamfering mechanism two, the utility model discloses the vertical removal and the horizontal migration that the accessible removed the storage board transport tubular product to processing station root to realize the continuous processing of tubular product.

Further, be provided with the tubular product rack between the discharge end of chamfer frame and conveyer belt, like this when the preorder equipment production beat of beveler is greater than the production beat of beveler, the utility model discloses accessible tubular product rack carries out temporary storage to tubular product.

Furthermore, a limiting slide rail perpendicular to the feeding direction is arranged at the upper end of the pipe placing frame, an L-shaped first limiting plate and an L-shaped second limiting plate are connected to the limiting slide rail in a sliding mode, one ends, close to the chamfering rack, of the first limiting plate and one ends, close to the chamfering rack, of the second limiting plate are both arranged in a downward inclined mode, a material baffle and a material distributing mechanism are arranged at the lower end of the first limiting plate and the lower end of the second limiting plate, and the top of the material baffle can be higher than the lifting moving feeding mechanism; and the high end of the first limit plate and the high end of the second limit plate are lower than the low end of the transition bridge. Thus the utility model discloses can adjust the distance between limiting plate one, the limiting plate two according to the length of tubular product is nimble, make its tubular product with various length suit.

According to the technical scheme, the utility model has the advantages of it is following: firstly, because the utility model is provided with a finished product bin with a crawling ladder type feeding function, the finished product bin can sequentially send the pipes processed and finished by the preorder station to a conveying belt with a certain height, convey the upper part of the feeding end of the chamfering machine through the conveying belt, and finally smoothly discharge the pipes into the chamfering machine through the discharge port, thereby solving the problem of height difference between the chamfering machine and preorder processing equipment thereof and realizing automatic feeding of the pipes; secondly, because the utility model discloses still additionally add the tubular product rack between chamfer frame and conveyer belt, its production beat that can guarantee the beveler suits rather than preorder equipment production beat to make the production efficiency of whole production line higher.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of a conveying frame and a finished product bin of the present invention;

fig. 3 is a schematic view of the working principle of the intermediate product bin of the present invention;

fig. 4 is a schematic structural view of the middle chamfering machine of the present invention;

fig. 5 is a partial enlarged view of a portion a in fig. 4.

In the figure: 1. 2, a chamfering machine, 2, a chamfering machine frame, 2-1, a chamfering mechanism I, 2-2, a chamfering mechanism II, 2-3, a clamping disc base, 2-4, a movable clamping disc, 2-5 material length detection mechanisms, 2-6, a fixed material storage plate, 2-7, a movable material storage plate, 2-8, a lifting base, 2-9, a lifting cylinder, 2-10 and a horizontal moving cylinder; 3. 3-1 parts of a pipe placing frame, 3-1 parts of second limiting plates, 3-2 parts of first limiting plates, 3-3 parts of first limiting plates, 3-4 parts of double-head screws, 3-5 parts of a material distributing mechanism and a material baffle plate; 4. 4-1 of a conveying frame, 4-2 of a conveying belt, 4-2 of a material pushing mechanism, 4-3 of a transition bridge; 5. a finished product bin 5-1, a movable vertical plate III, 5-2, a fixing frame 5-3, a movable vertical plate II, 5-4, a push plate 5-5, a movable vertical plate I, 5-6, a lifting driving cylinder 5-7, a bin base 5-8, a material receiving slope 5-9, a fixed step I, 5-10 and a fixed step II; 6. a pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

As shown in fig. 1 and 2, the utility model provides a double-end chamfering device, which comprises a conveying frame 4 and a chamfering machine 1 which are arranged in sequence along the advancing direction of a pipe. The conveying frame is characterized in that a conveying belt 4-1 is arranged at the upper end of the conveying frame 4, at least one feeding hole is formed in the feeding end of the conveying belt 4-1, a finished product bin 5 is arranged at the position of the feeding hole, and when the number of the feeding holes is more than one, all the feeding holes and the finished product bins 5 are preferably arranged on two sides of the conveying belt 4-1 in a staggered mode in order to achieve ordered pipe transportation.

Specifically, as shown in fig. 3, a material receiving slope 5-8 is arranged on one side of the finished product bin 5 away from the conveyor belt 4-1, and one end of the material receiving slope 5-8 close to the conveyor belt 4-1 is arranged in a downward inclined manner; one side of the finished product bin 5, which is close to the conveyor belt 4-1, is obliquely provided with a fixing frame 5-2, the height of the top end of the fixing frame 5-2 is higher than or equal to the height of the conveyor belt 4-1, and the top end of the fixing frame 5-2 is arranged to be an inclined plane. A lifting feeding mechanism is arranged between the fixing frame 5-2 and the material receiving slope 5-8.

The lifting and feeding mechanism comprises a push plate 5-4, the push plate 5-4 is vertically and slidably mounted between a fixed frame 5-2 and a material receiving slope 5-8, a lifting driving cylinder 5-6 is connected to the lower end of the push plate 5-4 in a transmission manner, at least two movable vertical plates are arranged at the upper end of the push plate 5-4 in parallel, a fixed ladder is arranged between any two adjacent movable vertical plates, the fixed ladder is fixedly mounted in a finished product bin 5, the top ends of the fixed ladder and the movable vertical plates are inclined planes, when the lifting driving cylinder 5-6 drives the push plate 5-4 and the movable vertical plates arranged on the push plate 5-4 to vertically slide together, the top of the fixed ladder can be higher than the movable vertical plates far away from the material receiving slope 5-8, and the top of the fixed ladder can be lower than the movable vertical plates near the material receiving slope 5-8; the top of the movable vertical plate closest to the material receiving slope 5-8 can be lower than the lower end of the material receiving slope 5-8, and the top of the movable vertical plate closest to the fixing frame 5-2 can be higher than the fixing frame 5-2. In addition, the widths of the fixed ladder and the movable vertical plate are determined by the diameter of the processed pipe, so that each layer of ladder is ensured to only contain a single row of pipes; the number of the movable vertical plates and the number of the sections of the fixed steps on the push plates 5-4 are determined by the lifting height, and can be set to be 1 level, 2 levels, 3 levels or even more, and the sectional setting can reduce the climbing time of a single pipe, so that the pipe is conveyed more quickly and continuously.

For example work as be provided with two fixed ladders in the finished product feed bin, when being provided with three activity riser on the push pedal, its specific promotion pay-off is kept away from and is: after the pipe automatically slides to the material receiving slope 5-8 of the finished product bin 5 from the upper station, lifting the driving cylinder 5-6 to contract, so that the push plate 5-4 is positioned at the lowest point, and at the moment, the pipe slides to the inclined plane at the top of the movable vertical plate 5-5 along the material receiving slope 5-8; then lifting the driving cylinder 5-6 to extend out, so that the pipe positioned at the top of the movable vertical plate 5-5 is lifted, and when the top surface of the movable vertical plate 5-5 is level with the top surface of the fixed step 5-9, the pipe automatically slides to the fixed step 5-9 along the inclined surface; then the lifting driving cylinder 5-6 acts again, the first lifted pipe slides to the second fixed ladder 5-10, the second pipe is lifted to the first fixed ladder 5-9, then the lifting driving cylinder 5-6 acts repeatedly, and the first-level pipe can be conveyed to the highest point and slides into the conveyor belt 4-1 along the inclined plane at the upper end of the fixed frame 5-2.

The discharging end of the conveying belt 4-1 is provided with a discharging port, the discharging port is provided with a limit switch, a pushing mechanism 4-2 and a transition bridge 4-3, one end, far away from the conveying belt 4-1, of the transition bridge 4-3 inclines downwards, and the lower end of the transition bridge 4-3 is higher than the feeding height of the chamfering machine 1. After the pipe is machined at the previous station, the semi-finished pipe can be conveyed to the conveyor belt 4-1 from the corresponding feeding port, when the limit switch arranged at the discharging end of the conveyor belt 4-1 senses that the semi-finished pipe is conveyed to the discharging port by the conveyor belt 4-1, the corresponding semi-finished pipe is pushed onto the transition bridge 4-3 through the material pushing mechanism 4-2, and then the semi-finished pipe can slide down to the feeding port of the chamfering machine 1 under the guidance of the transition bridge 4-3.

As shown in fig. 1 and 4, the chamfering machine 1 includes a tube placing frame 3 and a chamfering machine frame 2. The pipe placing frame 3 is arranged below the transition bridge 4-3, and a limiting slide rail and a double-head lead screw 3-3 which are perpendicular to the feeding direction of the chamfering machine 1 are arranged at the upper end of the pipe placing frame 3; the limiting slide rail is connected with an L-shaped limiting plate I3-2 and an L-shaped limiting plate II 3-1 in a sliding mode, the limiting plate I3-2 and the limiting plate II 3-1 are symmetrically arranged, and the limiting plate I3-2 and the limiting plate II 3-1 are respectively in threaded connection with thread sections with opposite rotation directions on two sides of the double-head screw rod 3-3; one end of the double-head screw rod 3-3 is provided with a rotary hand wheel. Thus, the utility model discloses can be according to the rotatory hand wheel of the rotatory double threaded lead screw 3-3 tip of the length of waiting to process tubular product to the interval of adjustment limiting plate one 3-2 and limiting plate two 3-1. In addition, the first limiting plate 3-2 and the second limiting plate 3-1 are obliquely arranged, namely the high end of the first limiting plate 3-2 and the high end of the second limiting plate 3-1 are both close to one end of the conveying frame 4, and the high end of the first limiting plate 3-2 and the high end of the second limiting plate 3-1 are both lower than the low end of the transition bridge 4-3; the lower end of the first limiting plate 3-2 and the lower end of the second limiting plate 3-1 are ends far away from the conveying frame 4, and the lower end of the first limiting plate 3-2 and the lower end of the second limiting plate 3-1 are both provided with a material baffle 3-5 and a material distribution mechanism 3-4. The material distributing mechanism 3-4 comprises a material distributing plate and a material distributing cylinder, the material distributing plate is vertically and slidably mounted on the first limiting plate 3-2 or the second limiting plate 3-1, and the material distributing plate can push the semi-finished pipes above the material distributing plate to a height higher than that of the material blocking plate 3-5 under the action of the material distributing cylinder so as to realize material distributing and feeding actions.

As shown in fig. 4 and 5, a feeding guide rail is arranged at the upper end of the chamfering machine frame 2, a chamfering mechanism I2-1 and a chamfering mechanism II 2-2 are horizontally and slidably connected to the feeding guide rail, and a clamping mechanism, a material length detection mechanism 2-5 and a lifting moving feeding mechanism are arranged between the chamfering mechanism I2-1 and the chamfering mechanism II 2-2. The clamping mechanism comprises a clamping disc base 2-3 fixed on the chamfering mechanism I2-1 and a clamping disc base 2-3 fixed on the chamfering mechanism II 2-2, and the upper end of the clamping disc base 2-3 is provided with a slotted hole for fixing a pipe; the pipe chamfering machine further comprises a movable clamping disc 2-4 vertically and slidably mounted on the chamfering mechanism I2-1 and a movable clamping disc 2-4 vertically and slidably mounted on the chamfering mechanism II 2-2, and the two movable clamping discs 2-4 are both connected with a clamping driving cylinder, so that when a pipe falls into a slot of the clamping disc base 2-3, the movable clamping disc 2-4 can be driven to fall through the clamping driving cylinder, and the pipe is fixed.

The lifting movable feeding mechanism comprises a fixed material storage plate 2-6 fixedly arranged on the chamfering mechanism I2-1 and a fixed material storage plate 2-6 fixedly arranged on the chamfering mechanism II 2-2; the pipe storage rack is characterized by further comprising lifting bases 2-8, the lifting bases 2-8 are vertically and slidably mounted on one side, close to the pipe storage rack 3, of the chamfering rack 2, lifting cylinders 2-9 are connected between the lifting bases 2-8 and the chamfering rack 2, the upper ends of the lifting bases 2-8 are horizontally and slidably connected with at least one movable material storage plate 2-7 along the feeding direction of the chamfering machine 1, horizontal moving cylinders 2-10 are connected between the movable material storage plates 2-7 and the lifting bases 2-8, the movable material storage plates 2-7 are preferably arranged between two fixed material storage plates 2-6, material storage grooves are formed in the tops of the movable material storage plates 2-7 and the fixed material storage plates 2-6, and the number of the material storage grooves in the movable material storage plates 2-7 is 2 more than that of the fixed material storage plates 2-6.

At the moment, after the pipe is moved from the conveying frame 4 to the position above the pipe placing frame 3, the utility model can firstly push the movable material storage plate 2-7 to extend out through the horizontal moving cylinder 2-10, and then drive the movable material storage plate 2-7 to ascend to be flush with the lowest surface of the top of the material baffle plate 3-5 through the lifting cylinder 2-9; at the moment, the material distributing cylinder extends out to jack up a pipe and slide into a first material storing groove of the movable material storing plate 2-7 along the top inclined plane of the material stopping plate 3-5; then the horizontal moving cylinder 2-10 retracts, and the first storage groove of the moving storage plate 2-7 and the first storage groove of the fixed storage plate 2-6 are positioned on the same vertical line; then the lifting cylinder 2-9 retracts, and drives the movable material storage plate 2-7 to fall to a position lower than the fixed material storage plate 2-6, so that the pipe falls into a first material storage groove of the fixed material storage plate 2-6; then repeating the process steps, circularly moving until the first pipe falls into the slot at the clamping mechanism and is fixed, then controlling the first chamfering mechanism I2-1 and the second chamfering mechanism II 2-2 to feed to accurate positions, and rotating the tool bit to chamfer the two ends of the pipe; after the first pipe is machined, the first pipe is placed on the blanking slope of the chamfering machine 1 and slides into the collecting vehicle along the blanking slope.

The terms "first," "second," "third," "fourth," and the like (if any) in the description and claims of the present invention and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in other sequences than those illustrated or described herein. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The double-head chamfering device comprises a chamfering machine and is characterized in that a conveying frame is arranged at the feeding end of the chamfering machine, a conveying belt is arranged on the conveying frame, a discharging port is arranged at the discharging end of the conveying belt, and the discharging port is higher than the feeding height of the chamfering machine; the feed end of conveyer belt is provided with at least one finished product feed bin, one side that the conveyer belt was kept away from to the finished product feed bin is provided with and connects the material slope, it is provided with promotion feeding mechanism to connect the material slope to be close to one side of conveyer belt, it is provided with the mount to promote one side that feeding mechanism is close to the conveyer belt, the height that highly is higher than or equals the conveyer belt on mount top.

2. The double-end chamfering device according to claim 1, wherein the lifting and feeding mechanism comprises a push plate, the push plate is vertically and slidably mounted between a fixed frame and a material receiving slope, at least two movable vertical plates are arranged at the upper end of the push plate in parallel, a fixed step is arranged between any two adjacent movable vertical plates, the fixed step is fixedly mounted in a finished product bin, the top of the fixed step can be higher than the movable vertical plate at one side far away from the material receiving slope, and the top of the fixed step can be lower than the movable vertical plate at one side near the material receiving slope; the top of the movable vertical plate closest to the material receiving slope can be lower than the material receiving slope, and the top of the movable vertical plate closest to the fixing frame can be higher than the fixing frame.

3. The double-ended chamfering apparatus according to claim 2, wherein the top end of the fixing bracket, the top end of the fixing step, and the top end of the movable riser are all inclined surfaces.

4. The double-ended chamfering device according to claim 1, 2 or 3, wherein a limit switch and a pushing mechanism are arranged at a discharge port of the conveyor belt.

5. The double-ended chamfering device according to claim 4, wherein a transition bridge is further arranged at the discharge port of the conveyor belt, one end of the transition bridge, far away from the conveyor belt, is inclined downwards, and the lower end of the transition bridge is higher than the feeding height of the chamfering machine.

6. The double-end chamfering device according to claim 5, wherein the chamfering machine comprises a chamfering machine frame, the chamfering machine frame is located on one side of a conveyor belt discharge port, a feeding guide rail is arranged at the upper end of the chamfering machine frame, a first chamfering mechanism and a second chamfering mechanism are slidably connected onto the feeding guide rail, and a clamping mechanism, a material length detection mechanism and a lifting moving feeding mechanism are arranged between the first chamfering mechanism and the second chamfering mechanism.

7. The double-ended chamfering device according to claim 6, wherein the lifting moving feeding mechanism comprises a fixed material storage plate and a lifting base, the fixed material storage plate is fixedly installed on the first chamfering mechanism and/or the second chamfering mechanism, the lifting base is vertically and slidably installed on one side of the chamfering frame close to the conveyor belt, at least one moving material storage plate is horizontally and slidably connected to the upper end of the lifting base along the feeding direction, the moving material storage plate and the fixed material storage plate are arranged in parallel, material storage grooves are formed in the tops of the moving material storage plate and the fixed material storage plate, and the number of the material storage grooves in the moving material storage plate is greater than that of the material storage grooves in the fixed material storage plate.

8. The double-ended chamfering device according to claim 6, wherein a pipe placing rack is arranged between the chamfering rack and the discharge end of the conveyor belt.

9. The double-end chamfering device according to claim 8, wherein a limiting slide rail perpendicular to the feeding direction is arranged at the upper end of the pipe placing frame, an L-shaped first limiting plate and an L-shaped second limiting plate are slidably connected to the limiting slide rail, one ends of the first limiting plate and the second limiting plate, which are close to the chamfering machine frame, are both arranged in a downward inclined manner, a striker plate and a material distributing mechanism are arranged at the lower end of the first limiting plate and the lower end of the second limiting plate, and the top of the striker plate can be higher than that of the lifting moving feeding mechanism; and the high end of the first limit plate and the high end of the second limit plate are lower than the low end of the transition bridge.

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