CN219238232U - Metal tube conveying device - Google Patents

Abstract

The utility model discloses a metal tube conveying device, which relates to the technical field of metal tube processing and comprises a frame, a receiving mechanism and a conveying mechanism, wherein the receiving mechanism and the conveying mechanism are both arranged on the frame, the receiving mechanism is close to first fine drawing process equipment, one end of the conveying mechanism is close to the receiving mechanism, the other end of the conveying mechanism is close to second fine drawing process equipment, the receiving mechanism can transfer metal tube products conveyed from the first fine drawing process equipment to the conveying mechanism, the conveying mechanism can convey the metal tube products upwards to the second fine drawing process equipment, the line production of forming one flow between two fine drawing processes is realized, the labor is saved, the operation cost is reduced, and the operation efficiency is higher.

Description

Metal tube conveying device

Technical Field

The utility model relates to the technical field of metal tube processing, in particular to a metal tube conveying device.

Background

In the metal tube processing process, when the metal tube finishes a first fine drawing process and is ready to enter a second fine drawing process, the heights of the two fine drawing process devices are inconsistent, wherein the heights of the second fine drawing process devices are higher than those of the first fine drawing process device, and in the prior art, an automatic conveying device is not arranged between the two fine drawing process devices, so that the metal tube products completing the first fine drawing process cannot be conveyed upwards to the second fine drawing process device, and the products need to be manually taken and manually placed on a tray material frame and then uniformly transferred to the next fine drawing process.

Therefore, the existing flow production of one flow cannot be formed between the first fine extraction process and the second fine extraction process, and the labor intensity of manual conveying operation is high, personnel are easy to fatigue, and the defects of high cost and low efficiency exist.

Disclosure of Invention

The utility model aims to provide a metal pipe conveying device which solves the problems in the prior art, can convey metal pipe products subjected to a first fine drawing process to second fine drawing process equipment upwards, saves manpower, reduces operation cost and has higher operation efficiency.

In order to achieve the above object, the present utility model provides the following solutions:

the utility model provides a metal tube conveying device which comprises a frame, a receiving mechanism and a conveying mechanism, wherein the receiving mechanism and the conveying mechanism are both arranged on the frame, the receiving mechanism is close to first fine drawing process equipment, one end of the conveying mechanism is close to the receiving mechanism, the other end of the conveying mechanism is close to second fine drawing process equipment, the receiving mechanism can transfer metal tube products conveyed from the first fine drawing process equipment to the conveying mechanism, and the conveying mechanism can convey the metal tube products upwards to the second fine drawing process equipment.

Preferably, the rack is located between the first fine extraction process equipment and the second fine extraction process equipment, and the discharging direction of the first fine extraction process equipment is parallel to the feeding direction of the second fine extraction process equipment;

the frame comprises a platform and supporting legs, the platform is horizontally arranged at the top of the frame, and the supporting legs are supported at the bottom of the platform; the platform comprises a first cross beam and a second cross beam, the direction of the first cross beam and the direction of the second cross beam are parallel to the discharging direction of the first fine extraction process equipment and the feeding direction of the second fine extraction process equipment, the first cross beam is close to the first fine extraction process equipment, and the second cross beam is close to the second fine extraction process equipment;

the material receiving mechanism comprises a material receiving arm and a connecting part, and the material receiving arm is arranged on the first cross beam through the connecting part; the one end of receiving the material arm is the material end, and the other end is the link, connecting portion can drive connect the material arm in the horizontal plane around the link rotates, so that connect the material end can be located follow first smart drawing process equipment fortune out the below of tubular metal resonator class product, and, connecting portion can drive connect the material arm and rotate in vertical plane, so that connect the material end can lift, thereby will tubular metal resonator class product is followed connect the material arm roll to on the conveying mechanism.

Preferably, the connecting part comprises a rotary cylinder and a turning-up cylinder; the rotary cylinder is positioned above the platform, an output shaft of the rotary cylinder is fixedly connected with the connecting end of the material receiving arm, and when the rotary cylinder drives the material receiving arm to rotate, the output shaft of the rotary cylinder is arranged vertically upwards; the bottom of the rotary cylinder is rotationally connected with the first cross beam, the turning-up cylinder is positioned below the platform, a piston rod of the turning-up cylinder is arranged upwards along an oblique direction and is rotationally connected with the bottom of the rotary cylinder, and the bottom of the turning-up cylinder is rotationally connected with one side of the frame.

Preferably, the platform further comprises a first mounting seat and a second mounting seat, and the first mounting seat and the second mounting seat are arranged between the first beam and the second beam;

the conveying mechanism comprises a first conveying part, a second conveying part and a driving part; the first conveying part is arranged on the first mounting seat, the second conveying part is arranged on the second mounting seat, the first conveying part comprises a first conveying belt, a first driving shaft and a first driven shaft, the first driving shaft is parallel to the first driven shaft, the first conveying belt is sleeved on the first driving shaft and the first driven shaft, first side plates are respectively arranged on two sides of the first conveying belt, one end of the first side plate, which is close to the first driving shaft, is fixedly connected with one end of the first mounting seat, which is close to the second fine extraction process equipment, through a first supporting plate, the first driven shaft is arranged on one end of the first mounting seat, which is close to the first fine extraction process equipment, so that the first conveying belt is arranged in an inclined direction, and the height of the first driving shaft is matched with the feeding height of the second fine extraction process equipment;

the second conveying part comprises a second conveying belt, a second driving shaft and a second driven shaft, the second driving shaft is parallel to the second driven shaft, the second conveying belt is sleeved on the second driving shaft and the second driven shaft, second side plates are respectively arranged on two sides of the second conveying belt, one end, close to the second driving shaft, of each second side plate is fixedly connected with one end, close to the second fine extraction process equipment, of each second mounting seat through a second supporting plate, and the second driven shaft is mounted on one end, close to the first fine extraction process equipment, of each second mounting seat, so that the second conveying belt is arranged upwards in an inclined mode, and the second driving shaft is equal to the first driving shaft in height;

the driving part comprises a transmission shaft, a transmission mechanism and a power mechanism, the first driving shaft is connected with the second driving shaft through the transmission shaft, the power mechanism is connected with the transmission shaft through the transmission mechanism, and the power mechanism can drive the transmission shaft to rotate so as to drive the first conveying belt and the second conveying belt to rotate;

the first conveyer belt with all evenly be provided with a plurality of blend stops on the second conveyer belt, on the first conveyer belt the blend stop with on the second conveyer belt the blend stop one-to-one, just on the first conveyer belt adjacent interval between the blend stop and on the second conveyer belt adjacent interval between the blend stop all with the external diameter phase-match of tubular metal resonator product.

Preferably, the power mechanism is a motor, the motor is installed at the bottom of the frame, and an output shaft of the motor is parallel to the transmission shaft; the transmission mechanism is a synchronous belt transmission mechanism, the synchronous belt transmission mechanism comprises a first belt wheel, a second belt wheel and a synchronous belt, the first belt wheel is fixedly installed on the transmission shaft, the second belt wheel is fixedly installed on an output shaft of the motor, and the second belt wheel is connected with the first belt wheel through the synchronous belt.

Preferably, the driving part further comprises two couplings, and the first driving shaft and the second driving shaft are respectively connected with the transmission shaft through one coupling.

Preferably, the driving part further comprises a rubber rod, and the rubber rod is sleeved on the transmission shaft; the barrier strip is made of PU materials.

Preferably, the rack further comprises a T-shaped support, the T-shaped support is arranged on the platform, the transmission shaft is rotatably connected to the top of the T-shaped support through bearings, the T-shaped support is provided with a plurality of T-shaped supports, all the T-shaped supports are arranged between the transmission shaft and the platform, and each T-shaped support is provided with one bearing.

Preferably, the first mounting seat comprises a first longitudinal beam, one end of the first longitudinal beam is vertically connected with the first cross beam, the other end of the first longitudinal beam is vertically connected with the second cross beam, two first longitudinal beams are arranged, and a mounting space of the first conveying part is formed between the two first longitudinal beams;

the second mounting seat comprises second longitudinal beams, one ends of the second longitudinal beams are vertically connected with the first cross beams, the other ends of the second longitudinal beams are vertically connected with the second cross beams, two second longitudinal beams are arranged, and a mounting space of the second conveying part is formed between the two second longitudinal beams.

Preferably, the receiving end of the receiving arm is provided with an upward folded edge.

Compared with the prior art, the utility model has the following technical effects:

the metal tube conveying device comprises a frame, a receiving mechanism and a conveying mechanism, wherein the receiving mechanism and the conveying mechanism are arranged on the frame, metal tube products conveyed from first fine pumping working procedure equipment are transferred onto the conveying mechanism through the receiving mechanism, and then the metal tube products are conveyed upwards onto second fine pumping working procedure equipment through the conveying mechanism, so that flow production forming one flow between two fine pumping working procedures is realized, labor is saved, working cost is reduced, and working efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a metal tube conveying device provided by the utility model;

FIG. 2 is a schematic view of a partial structure of a metal tube conveying device according to the present utility model;

in the figure: 11-first cross beam, 12-second cross beam, 13-landing leg, 14-T-shaped bracket, 15-bearing, 16-first longitudinal beam, 17-second longitudinal beam, 21-receiving arm, 22-rotary cylinder, 23-turning cylinder, 31-first conveying part, 32-second conveying part, 33-transmission shaft, 34-synchronous belt transmission mechanism, 35-motor, 36-coupling and 37-glue stick.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model aims to provide a metal pipe conveying device which solves the problems in the prior art, can convey metal pipe products subjected to a first fine drawing process to second fine drawing process equipment upwards, saves manpower, reduces operation cost and has higher operation efficiency.

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1, the utility model provides a metal tube conveying device, which comprises a frame, a receiving mechanism and a conveying mechanism, wherein the receiving mechanism and the conveying mechanism are both arranged on the frame, the receiving mechanism is close to first fine drawing process equipment, one end of the conveying mechanism is close to the receiving mechanism, the other end of the conveying mechanism is close to second fine drawing process equipment, the receiving mechanism can transfer metal tube products conveyed from the first fine drawing process equipment to the conveying mechanism, the conveying mechanism can convey the metal tube products upwards to the second fine drawing process equipment, the line production of forming one flow between the two fine drawing processes is realized, the labor is saved, the operation cost is reduced, and the operation efficiency is higher.

In this embodiment, the frame is located between the first fine extraction process device and the second fine extraction process device, and the discharging direction of the first fine extraction process device is parallel to the feeding direction of the second fine extraction process device;

the frame comprises a platform and supporting legs 13, the platform is horizontally arranged at the top of the frame, and the supporting legs 13 are supported at the bottom of the platform; specifically, the frame of the embodiment is a frame structure formed by welding a plurality of section steel, wherein the platform comprises a first beam 11 and a second beam 12, the direction of the first beam 11 and the direction of the second beam 12 are parallel to the discharging direction of the first fine extraction process equipment and the feeding direction of the second fine extraction process equipment, the first beam 11 is close to the first fine extraction process equipment, and the second beam 12 is close to the second fine extraction process equipment;

the receiving mechanism comprises a receiving arm 21 and a connecting part, and the receiving arm 21 is arranged on the first cross beam 11 through the connecting part; one end of the receiving arm 21 is a receiving end, the other end of the receiving arm 21 is a connecting end, the connecting part can drive the receiving arm 21 to rotate around the connecting end in a horizontal plane so that the receiving end can be positioned below a metal pipe product conveyed out of first fine drawing process equipment, and the connecting part can drive the receiving arm 21 to rotate in a vertical plane, wherein the vertical plane is perpendicular to the first cross beam 11 so that the receiving end can be lifted, and the metal pipe product can be rolled onto a conveying mechanism along the receiving arm 21; in this embodiment, the receiving end of the receiving arm 21 is further provided with an upward folded edge, so as to facilitate receiving.

Further, the connection part includes a rotary cylinder 22 and a turn-up cylinder 23; the rotary cylinder 22 is located above the platform, and the output shaft of the rotary cylinder 22 is fixedly connected with the connecting end of the receiving arm 21, when the rotary cylinder 22 drives the receiving arm 21 to rotate, the output shaft of the rotary cylinder 22 is vertically arranged upwards, the rotary cylinder 22 in this embodiment is preferably a 90-degree rotary cylinder, and the 90-degree rotary cylinder can drive the receiving arm 21 to rotate 90 ° around the output shaft of the rotary cylinder 22 in a horizontal plane, for example, the receiving arm 21 is rotated 90 ° clockwise from the state parallel to the first cross beam 11 as shown in fig. 1. The bottom of the rotary air cylinder 22 is rotationally connected with the first cross beam 11, the turning-up air cylinder 23 is positioned below the platform, a piston rod of the turning-up air cylinder 23 is obliquely arranged upwards and is rotationally connected with the bottom of the rotary air cylinder 22, and the bottom of the turning-up air cylinder 23 is rotationally connected with one side of the frame; specifically, as shown in fig. 2, one end of the bottom of the rotary cylinder 22 is provided with a hinge shaft, the side part of the first beam 11 is provided with a hinge seat matched with the hinge shaft, and the hinge shaft is rotatably installed in the hinge seat, so that the hinge between the rotary cylinder 22 and the first beam 11 is realized, and the rotary cylinder 22 and the material receiving arm 21 thereon rotate around the hinge shaft; the other end of the bottom of the rotary cylinder 22 is hinged with a piston rod of the turning-up cylinder 23, the bottom of the turning-up cylinder 23 is hinged to the side part of the beam below the first beam 11, when the piston rod of the turning-up cylinder 23 contracts, the rotary cylinder 22 can be pulled to rotate downwards around the hinge shaft at the bottom of the rotary cylinder in a vertical plane, so that the material receiving arm 21 is tilted, and when the piston rod of the turning-up cylinder 23 stretches out, the rotary cylinder 22 can be pushed to rotate upwards around the hinge shaft in the vertical plane, so that the material receiving arm 21 is restored to be horizontally placed.

In this embodiment, the platform further includes a first mount and a second mount, both of which are disposed between the first beam 11 and the second beam 12;

the conveying mechanism includes a first conveying portion 31, a second conveying portion 32, and a driving portion; the first conveying part 31 is arranged on the first mounting seat, the second conveying part 32 is arranged on the second mounting seat, the first conveying part 31 comprises a first conveying belt, a first driving shaft and a first driven shaft, the first driving shaft is parallel to the first driven shaft, the first conveying belt is sleeved on the first driving shaft and the first driven shaft, first side plates are respectively arranged on two sides of the first conveying belt, one end of the first side plate, which is close to the first driving shaft, is fixedly connected with one end of the first mounting seat, which is close to the second fine extraction process equipment, through a first supporting plate, the first driven shaft is arranged at one end of the first mounting seat, which is close to the first fine extraction process equipment, so that the first conveying belt is arranged obliquely upwards, and the height of the first driving shaft is matched with the feeding height of the second fine extraction process equipment; in this embodiment, the first mounting seat includes first longitudinal beams 16, one end of each first longitudinal beam 16 is vertically connected with the first cross beam 11, the other end is vertically connected with the second cross beam 12, two first longitudinal beams 16 are provided, a mounting space of a first conveying part 31 is formed between the two first longitudinal beams 16, meanwhile, a gap formed between the two first longitudinal beams 16 can also be used for the first conveying belt to pass through during operation, specifically, a first driven shaft is arranged at an opening of the first cross beam 11 between the two first longitudinal beams 16, the first driven shaft is parallel to the first cross beam 11, bottoms of two first supporting plates are respectively fixedly connected to side parts of the two first longitudinal beams 16 and are positioned between the two first longitudinal beams 16 and close to the second cross beam 12 so as to raise a first driving shaft to be matched with the feeding height of the second fine extraction process equipment;

the second conveying part 32 comprises a second conveying belt, a second driving shaft and a second driven shaft, the second driving shaft is parallel to the second driven shaft, the second conveying belt is sleeved on the second driving shaft and the second driven shaft, two sides of the second conveying belt are respectively provided with a second side plate, one end of the second side plate, which is close to the second driving shaft, is fixedly connected with one end of the second mounting seat, which is close to the second fine extraction process equipment, through a second supporting plate, the second driven shaft is mounted at one end of the second mounting seat, which is close to the first fine extraction process equipment, so that the second conveying belt is arranged obliquely upwards, and the second driving shaft is equal to the first driving shaft in height; in this embodiment, the second mounting seat includes a second longitudinal beam 17, one end of the second longitudinal beam 17 is vertically connected with the first cross beam 11, the other end is vertically connected with the second cross beam 12, two second longitudinal beams 17 are provided, a mounting space of the second conveying part 32 is formed between the two second longitudinal beams 17, meanwhile, a gap formed between the two second longitudinal beams 17 can also be used for the second conveying belt to pass through during operation, specifically, a second driven shaft is arranged at an opening of the first cross beam 11 between the two second longitudinal beams 17, the second driven shaft is parallel to the first cross beam 11, bottoms of two second supporting plates are respectively fixedly connected at side parts of the two second longitudinal beams 17 and are positioned between the two second longitudinal beams 17 and close to the second cross beam 12 so as to raise the second driving shaft to be as high as the first driving shaft;

the driving part comprises a transmission shaft 33, a transmission mechanism and a power mechanism, the first driving shaft is connected with the second driving shaft through the transmission shaft 33, the power mechanism is connected with the transmission shaft 33 through the transmission mechanism, and the power mechanism can drive the transmission shaft 33 to rotate so as to drive the first conveying belt and the second conveying belt to rotate;

a plurality of barrier strips are uniformly arranged on the first conveying belt and the second conveying belt, the barrier strips on the first conveying belt and the barrier strips on the second conveying belt are in one-to-one correspondence, and the distance between adjacent barrier strips on the first conveying belt and the distance between adjacent barrier strips on the second conveying belt are matched with the outer diameter of the metal tube products; in this embodiment, three receiving mechanisms are evenly distributed on the first cross beam 11, the first conveying part 31 and the second conveying part 32 are respectively located between adjacent receiving mechanisms, the metal pipe product of this embodiment is a metal long pipe, one metal long pipe can roll to the position between adjacent barrier strips located at the same height on the first conveying belt and the second conveying belt along three receiving arms 21 steadily, the barrier strips can separate a plurality of metal long pipes one by one, disorder is avoided, and the barrier strips of this embodiment are made of PU materials, and surface scratches of the metal long pipe can be prevented.

In the embodiment, the power mechanism is a motor 35, the motor 35 is arranged at the bottom of the frame, and the output shaft of the motor 35 is parallel to the transmission shaft 33; the transmission mechanism is a synchronous belt transmission mechanism 34, the synchronous belt transmission mechanism 34 comprises a first belt wheel, a second belt wheel and a synchronous belt, the first belt wheel is fixedly arranged on the transmission shaft 33, the second belt wheel is fixedly arranged on an output shaft of the motor 35, and the second belt wheel is connected with the first belt wheel through the synchronous belt.

In this embodiment, the first driving shaft and the second driving shaft are both located above the second beam 12 and are parallel to the second beam 12, so that the driving shaft 33 is also located above the second beam 12 and is parallel to the second beam 12, in order to support the driving shaft 33, the rack of this embodiment further includes a T-shaped bracket 14, the T-shaped bracket 14 is disposed on the second beam 12, the driving shaft 33 is rotatably connected to a bearing seat disposed at the top of the T-shaped bracket 14 through a bearing 15, the T-shaped bracket 14 is provided with a plurality of T-shaped brackets, all the T-shaped brackets 14 are disposed between the driving shaft 33 and the second beam 12, and each T-shaped bracket 14 is provided with a bearing 15.

Further, in order to make the transmission shaft 33 more stably drive the first and second driving shafts to rotate, in this embodiment, the driving portion further includes two couplings 36, and the first and second driving shafts are connected to the transmission shaft 33 through one coupling 36.

Further, the driving part further comprises a rubber rod 37, the rubber rod 37 is sleeved on the transmission shaft 33, the rubber rod 37 can rotate along with the transmission shaft 33, when the metal long tube is conveyed to the upper side of the transmission shaft 33 by the conveying mechanism, the metal long tube can be stably conveyed to second fine extraction process equipment through friction force between the rubber rod 37 and the metal long tube, and damage to the metal long tube is prevented.

The working procedure of this embodiment is: ending the first fine extraction process; the rotary cylinder 22 is started to enable the material receiving arm 21 to rotate 90 degrees clockwise to receive the metal long pipe conveyed out of the first fine drawing process equipment; the piston rod of the turning-up cylinder 23 contracts, the rotary cylinder 22 is pulled downwards, the material receiving arm 21 is tilted, and under the action of gravity, the metal long tube rolls along the material receiving arm 21 to a position between adjacent barrier strips positioned at the same height on the first conveying belt and the second conveying belt; the motor 35 is started, and the transmission shaft 33 is driven to rotate by the synchronous belt transmission mechanism 34, so that the first conveyor belt and the second conveyor belt are driven to rotate, and the metal long pipe is lifted up by one grid; the piston rod of the turning-up cylinder 23 extends out to push the rotary cylinder 22 upwards and put the flat receiving arm 21; the rotary cylinder 22 is started to enable the material receiving arm 21 to rotate 90 degrees anticlockwise, the material receiving arm 21 is retracted, and a space is reserved for the next metal long tube to be transported from the first fine drawing process equipment; and repeating the process until all the long metal tubes are conveyed upwards to the second fine pumping process equipment.

The principles and embodiments of the present utility model have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present utility model; also, it is within the scope of the present utility model to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the utility model.

Claims (10)

1. A metal tube type conveying device, characterized in that: including frame, receiving mechanism and conveying mechanism, receiving mechanism with conveying mechanism all install in the frame, receiving mechanism is close to first smart process equipment of taking out, conveying mechanism's one end is close to receiving mechanism, the other end is close to second smart process equipment of taking out, receiving mechanism can with follow first smart process equipment of taking out output's tubular metal resonator product shifts to on the conveying mechanism, conveying mechanism can with tubular metal resonator product upwards carries to on the second smart process equipment of taking out.

2. A metal tube-like conveying apparatus according to claim 1, wherein: the rack is positioned between the first fine extraction process equipment and the second fine extraction process equipment, and the discharging direction of the first fine extraction process equipment is parallel to the feeding direction of the second fine extraction process equipment;

the frame comprises a platform and supporting legs, the platform is horizontally arranged at the top of the frame, and the supporting legs are supported at the bottom of the platform; the platform comprises a first cross beam and a second cross beam, the direction of the first cross beam and the direction of the second cross beam are parallel to the discharging direction of the first fine extraction process equipment and the feeding direction of the second fine extraction process equipment, the first cross beam is close to the first fine extraction process equipment, and the second cross beam is close to the second fine extraction process equipment;

the material receiving mechanism comprises a material receiving arm and a connecting part, and the material receiving arm is arranged on the first cross beam through the connecting part; the one end of receiving the material arm is the material end, and the other end is the link, connecting portion can drive connect the material arm in the horizontal plane around the link rotates, so that connect the material end can be located follow first smart drawing process equipment fortune out the below of tubular metal resonator class product, and, connecting portion can drive connect the material arm and rotate in vertical plane, so that connect the material end can lift, thereby will tubular metal resonator class product is followed connect the material arm roll to on the conveying mechanism.

3. A metal tube-like conveying apparatus according to claim 2, wherein: the connecting part comprises a rotary cylinder and a turning-up cylinder; the rotary cylinder is positioned above the platform, an output shaft of the rotary cylinder is fixedly connected with the connecting end of the material receiving arm, and when the rotary cylinder drives the material receiving arm to rotate, the output shaft of the rotary cylinder is arranged vertically upwards; the bottom of the rotary cylinder is rotationally connected with the first cross beam, the turning-up cylinder is positioned below the platform, a piston rod of the turning-up cylinder is arranged upwards along an oblique direction and is rotationally connected with the bottom of the rotary cylinder, and the bottom of the turning-up cylinder is rotationally connected with one side of the frame.

4. A metal tube-like conveying apparatus according to claim 2, wherein: the platform further comprises a first mounting seat and a second mounting seat, and the first mounting seat and the second mounting seat are arranged between the first cross beam and the second cross beam;

the conveying mechanism comprises a first conveying part, a second conveying part and a driving part; the first conveying part is arranged on the first mounting seat, the second conveying part is arranged on the second mounting seat, the first conveying part comprises a first conveying belt, a first driving shaft and a first driven shaft, the first driving shaft is parallel to the first driven shaft, the first conveying belt is sleeved on the first driving shaft and the first driven shaft, first side plates are respectively arranged on two sides of the first conveying belt, one end of the first side plate, which is close to the first driving shaft, is fixedly connected with one end of the first mounting seat, which is close to the second fine extraction process equipment, through a first supporting plate, the first driven shaft is arranged on one end of the first mounting seat, which is close to the first fine extraction process equipment, so that the first conveying belt is arranged in an inclined direction, and the height of the first driving shaft is matched with the feeding height of the second fine extraction process equipment;

the second conveying part comprises a second conveying belt, a second driving shaft and a second driven shaft, the second driving shaft is parallel to the second driven shaft, the second conveying belt is sleeved on the second driving shaft and the second driven shaft, second side plates are respectively arranged on two sides of the second conveying belt, one end, close to the second driving shaft, of each second side plate is fixedly connected with one end, close to the second fine extraction process equipment, of each second mounting seat through a second supporting plate, and the second driven shaft is mounted on one end, close to the first fine extraction process equipment, of each second mounting seat, so that the second conveying belt is arranged upwards in an inclined mode, and the second driving shaft is equal to the first driving shaft in height;

the driving part comprises a transmission shaft, a transmission mechanism and a power mechanism, the first driving shaft is connected with the second driving shaft through the transmission shaft, the power mechanism is connected with the transmission shaft through the transmission mechanism, and the power mechanism can drive the transmission shaft to rotate so as to drive the first conveying belt and the second conveying belt to rotate;

the first conveyer belt with all evenly be provided with a plurality of blend stops on the second conveyer belt, on the first conveyer belt the blend stop with on the second conveyer belt the blend stop one-to-one, just on the first conveyer belt adjacent interval between the blend stop and on the second conveyer belt adjacent interval between the blend stop all with the external diameter phase-match of tubular metal resonator product.

5. The metal tube-like conveying apparatus according to claim 4, wherein: the power mechanism is a motor, the motor is arranged at the bottom of the frame, and an output shaft of the motor is parallel to the transmission shaft; the transmission mechanism is a synchronous belt transmission mechanism, the synchronous belt transmission mechanism comprises a first belt wheel, a second belt wheel and a synchronous belt, the first belt wheel is fixedly installed on the transmission shaft, the second belt wheel is fixedly installed on an output shaft of the motor, and the second belt wheel is connected with the first belt wheel through the synchronous belt.

6. The metal tube-like conveying apparatus according to claim 5, wherein: the driving part further comprises two couplings, and the first driving shaft and the second driving shaft are respectively connected with the transmission shaft through one coupling.

7. The metal tube-like conveying apparatus according to claim 6, wherein: the driving part further comprises a rubber rod, and the rubber rod is sleeved on the transmission shaft; the barrier strip is made of PU materials.

8. The metal tube-like conveying apparatus according to claim 7, wherein: the frame still includes T shape support, T shape support sets up on the platform, the transmission shaft passes through the bearing and rotates to be connected the top of T shape support, T shape support is provided with a plurality ofly, all T shape support all sets up the transmission shaft with between the platform, and every all be provided with on the T shape support one the bearing.

9. The metal tube-like conveying apparatus according to claim 4, wherein: the first mounting seat comprises first longitudinal beams, one ends of the first longitudinal beams are vertically connected with the first cross beam, the other ends of the first longitudinal beams are vertically connected with the second cross beam, two first longitudinal beams are arranged, and a mounting space of the first conveying part is formed between the two first longitudinal beams;

the second mounting seat comprises second longitudinal beams, one ends of the second longitudinal beams are vertically connected with the first cross beams, the other ends of the second longitudinal beams are vertically connected with the second cross beams, two second longitudinal beams are arranged, and a mounting space of the second conveying part is formed between the two second longitudinal beams.

10. A metal tube-like conveying apparatus according to any one of claims 2 to 9, wherein: the material receiving end of the material receiving arm is provided with an upward folded edge.

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