CN220999728U - Automatic air cooling rod arranging machine for sucker rod heat treatment - Google Patents

Abstract

The utility model discloses an automatic air-cooling rod arranging machine for heat treatment of a sucker rod, which comprises an air-cooling rod pushing frame, an automatic rod arranging and discharging frame and a rod feeding roller device, wherein rod arranging pushing devices and feeding guide rods are uniformly distributed on the air-cooling rod pushing frame, rod body feeding devices are arranged on the side parts of at least two feeding guide rods, a rod body jacking device is arranged at the discharging end of the air-cooling rod pushing frame, a rod arranging and discharging guide rail and a rod body receiving device are uniformly distributed at the top end of the automatic rod arranging and discharging frame, and an air-cooling rod arranging controller is also arranged on the air-cooling rod pushing frame or the automatic rod arranging and discharging frame; the sucker rod forms natural cooling in the pushing process by utilizing the rod pushing device, then the sucker rod is matched with the rod body supporting device by means of the rod body jacking device, so that the sucker rod is further cooled along the rod discharging guide rail, the cooling effect is good, no collision exists between rod bodies in the whole process, no collision damage exists, the whole process is completed under the control of the air cooling rod discharging controller, and no human intervention is needed.

Description

Automatic air cooling rod arranging machine for sucker rod heat treatment

Technical Field

The utility model relates to the technical field of machining of matched parts of oil extraction equipment in an oil field, in particular to an automatic air-cooling rod arranging machine for heat treatment of a sucker rod.

Background

The sucker rod is one of the important matching parts in the current oil extraction equipment of the oil field, and the sucker rod is subjected to heat treatment, straightening treatment, shot blasting treatment and other processes in the processing process. Because the sucker rod is large in length, the equipment which needs to be matched for finishing treatment is large in volume and large in quantity, the existing sucker rod treatment equipment is distributed and arranged according to different processes, and the sucker rods need to be stacked between two adjacent processes to be subjected to batch turnover, so that the purpose of high-efficiency mass production is achieved.

After the heat treatment is finished, the sucker rod can be immediately straightened by means of high temperature, and the sucker rod is rapidly cooled by means of cooling equipment after straightening, so that deformation of the sucker rod is avoided again when the sucker rod is stacked. For example, patent number 201721793002.6, entitled "sucker rod heat treatment Cooling bed device", discloses a device for cooling sucker rods, wherein heat of sucker rods is naturally dissipated to complete cooling during the process of transferring the sucker rods from one side of a cooling bed to the other side, and the sucker rods are automatically discharged into a material frame to be stacked for turnover. In this technical scheme, the stroke of sucker rod on the cooling bed is short, and the serious collision between the body of rod appears easily when the cooling is accomplished unloading, stacks the prestored mode of taking the turnover and has also further increased the risk of deformation once more to the performance of sucker rod has been influenced, has made its in later stage use existence potential safety hazard, also can influence its life.

Disclosure of utility model

The utility model aims to solve the technical problem of providing the automatic air-cooling rod discharging machine for the heat treatment of the sucker rod, which has the advantages of large stroke in the cooling process of the sucker rod, automatic feeding and discharging, no contact between rod bodies in the whole process, and contribution to ensuring the stable performance, safe use and long service life.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the automatic air cooling rod discharging machine for the sucker rod heat treatment comprises an air cooling rod discharging pushing frame, an automatic rod discharging frame is arranged at the air cooling rod discharging pushing frame in a crossing mode, a feeding end of the air cooling rod discharging pushing frame and a discharging end of the automatic rod discharging frame are located on the same side and are respectively and correspondingly provided with a plurality of rod feeding roller devices used in a matched mode, rod discharging pushing devices are uniformly distributed on the air cooling rod pushing frame, feeding guide rods are respectively and correspondingly arranged on the side portions of the rod discharging pushing devices, rod feeding devices used in a matched mode are arranged on at least two of the side portions of the feeding guide rods, rod jacking devices used in a matched mode are arranged on the discharging end of the air cooling rod pushing frame, rod discharging guide rails which are arranged in an inclined mode towards the discharging end are uniformly distributed on the top end of the automatic rod discharging frame, rod receiving devices are correspondingly arranged on the side portions of the feeding end of the rod discharging guide rails, rod receiving devices are matched with the rod jacking devices, and the air cooling rod pushing frame or the automatic rod discharging frame is further provided with rod discharging controllers which are connected to the rod feeding controllers, and the air cooling rod controllers are connected to the rod pushing devices.

As the preferable technical scheme, the row rod pushing device comprises a rod body pushing auger rotatably arranged on the air cooling row rod pushing frame, and the rod body pushing auger is in transmission connection with an auger driving motor.

As the preferable technical scheme, one end of the feeding guide rod, which is close to the rod feeding roller device, is gradually raised from inside to outside, and the lower end of the feeding guide rod is lower than the pushing surface of the rod body pushing auger.

As the preferable technical scheme, the rod body feeding device comprises a rod body feeding arm rotatably mounted on the air cooling rod pushing frame, a feeding driving cylinder is arranged in cooperation with the rod body feeding arm, and the feeding driving cylinder is rotatably assembled with the rod body feeding arm.

As the preferable technical scheme, the top end of the rod body feeding arm is provided with an arc-shaped material limiting opening which is convenient for receiving the sucker rod.

As the preferable technical scheme, the rod body jacking device comprises a vertically installed jacking driving cylinder, and a V-shaped rod body jacking material frame is fixedly arranged at the end part of the jacking driving cylinder.

As the preferable technical scheme, the body of rod supporting device includes fixed mounting and towards the body of rod supporting that the lower slope of unloading end of automatic row pole unloading frame set up, the body of rod supporting connect the material end extend to the outside of automatic row pole unloading frame, the body of rod supporting's outer end rotates installs body of rod and holds the joint, just the body of rod is held the bottom that connects and is equipped with body of rod upper jacking device complex transition cambered surface.

As an improvement to the technical scheme, the rod conveying roller device comprises a rod conveying support frame, a rod conveying driving motor is fixedly installed on the rod conveying support frame, a rod conveying roller is connected to the power output end of the rod conveying driving motor, and the middle of the rod conveying roller is concavely arranged.

As an improvement to the technical scheme, the top end of the discharging guide rail of the discharging rod is fixedly provided with a discharging round rod for reducing friction between the discharging round rod and the sucker rod.

According to the technical scheme, the automatic air cooling rod discharging machine for heat treatment of the sucker rods comprises air cooling rod pushing frames, an automatic rod discharging frame is arranged across the air cooling rod pushing frames, the feeding ends of the air cooling rod pushing frames and the discharging ends of the automatic rod discharging frames are located on the same side and are respectively provided with a plurality of rod feeding roller devices which are matched with each other, rod pushing devices are uniformly distributed on the air cooling rod pushing frames, the side parts of each rod pushing device are respectively correspondingly provided with a feeding guide rod, at least two rod body feeding devices which are matched with each other are arranged on the side parts of at least two feeding guide rods, at least two rod body jacking devices which are matched with each other are arranged at the discharging ends of the air cooling rod pushing frames, rod discharging guide rails which are gradually arranged in a declining mode towards the discharging ends are uniformly distributed on the top ends of the automatic rod discharging frames, rod receiving devices are correspondingly arranged on the side parts of the upper material ends of the at least two rod discharging guide rails, the rod receiving devices are matched with the rod body jacking devices, and the automatic rod pushing frames or the rod discharging frames or the air cooling rod controllers are respectively connected to the rod body feeding devices; the utility model has the following beneficial effects: through the cooperation of body of rod loading attachment and material loading guide bar, shift the sucker rod from sending the pole roller device to arranging on the pole pusher, make it advance the propelling movement on arranging the pole pusher, form natural cooling in the propelling movement process, then shift to arranging on the pole guide rail of unloading with the help of the cooperation of body of rod top device and body of rod receiving device, make it accomplish further cooling along arranging pole guide rail of unloading and march, finally, through the pole roller device that send that is equipped with automatic pole unloading frame outwards carry the sucker rod that the cooling is good, the cooling effect is good, there is not the touch between the whole in-process body of rod, no collision damage, help guaranteeing the body of rod quality, and whole process is accomplished under the control of air cooling pole controller, and need not human intervention, degree of automation is high.

Drawings

The following drawings are only for purposes of illustration and explanation of the present utility model and are not intended to limit the scope of the utility model. Wherein:

FIG. 1 is a top view of an embodiment of the present utility model;

FIG. 2 is a side view of an embodiment of the present utility model;

FIG. 3 is a perspective view of an air cooled bar pushing frame, an automatic bar discharging frame and related structures according to an embodiment of the present utility model;

FIG. 4 is an enlarged schematic view of the structure shown at A in FIG. 3;

FIG. 5 is a schematic view of a rod-feeding roller device according to an embodiment of the present utility model;

FIG. 6 is a schematic illustration of the position of an embodiment of the present utility model in a production line;

In the figure: 1-a feeding machine; 2-quenching furnace; 3-tempering furnace; 4-straightening machine; 5-an automatic air-cooling rod arranging machine; 501-an air cooling bar pushing frame; 502-an automatic rod discharging frame; 503-a rod feeding support frame; 504-a rod feeding driving motor; 505-stick body transfer roller; 506-feeding guide rods; 507-pushing the auger on the rod body; 508-auger driving motor; 509-a rod body feeding arm; 510-a feeding driving cylinder; 511-an arc-shaped material limiting opening; 512-row bar discharge rail; 513-an overhead drive cylinder; 514-jacking a material rack on the rod body; 515-a rod body bearing support; 516-rod body socket; 517-transitional cambered surface; 518-a discharging round rod; 519-air cooling bar controller; 6-shot blasting machine; 7-unloader.

Detailed Description

The utility model is further illustrated in the following, in conjunction with the accompanying drawings and examples. In the following detailed description, certain exemplary embodiments of the present utility model are described by way of illustration only. It is needless to say that the person skilled in the art realizes that the described embodiments may be modified in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive in scope.

As shown in fig. 1 to 6, the automatic air-cooling rod discharging machine 5 for heat treatment of the sucker rod is arranged on a production line of heat treatment, straightening treatment and shot blasting treatment of the sucker rod, the production line of heat treatment, straightening treatment and shot blasting treatment of the sucker rod is sequentially provided with a feeding machine 1, a quenching furnace 2, a tempering furnace 3, a straightening machine 4, the automatic air-cooling rod discharging machine 5, a shot blasting machine 6 and a discharging machine 7 according to the treatment travelling direction of the sucker rod, and a transmission roller device for realizing process transfer of the sucker rod is arranged between two adjacent devices, so that the sucker rod can finish heat treatment, straightening treatment and shot blasting treatment at one time, rod body transfer does not need to be performed manually during the process, no contact exists between rod bodies, and the treatment effect and efficiency are greatly improved. The embodiment is arranged between the straightener 4 and the shot blasting machine 6 and is used for receiving sucker rods which are subjected to straightening treatment by the straightener 4, natural cooling is completed by designing the stroke of the sucker rods, and the whole process comprises automatic feeding, automatic rod arrangement pushing and automatic unloading to the next process, so that manual intervention is not needed, and the labor is saved.

As shown in fig. 1, 2, 3 and 4, the embodiment includes an air cooling rod pushing frame 501, an automatic rod discharging frame 502 is arranged across the air cooling rod pushing frame 501, the air cooling rod pushing frame 501 is matched with the automatic rod discharging frame 502 to form an upper-layer and lower-layer frame structure, so that a sucker rod can travel on the two frames to finish natural cooling, the stroke in a rod body cooling process is large, and the cooling effect is good. The feeding end of the air-cooled bar pushing frame 501 and the discharging end of the automatic bar discharging frame 502 are located on the same side and are respectively provided with a plurality of bar feeding roller devices in a matched mode. Wherein, the rod feeding roller device at the end part of the air cooling rod feeding frame 501 is used for receiving the sucker rod conveyed by the straightener 4 and transferring the sucker rod to the air cooling rod feeding frame 501 to finish the feeding of automatic air cooling; the rod feeding roller device at the end part of the automatic rod discharging and discharging frame 502 is used for receiving the sucker rod which completes automatic air cooling and transferring the sucker rod to the shot blasting machine 6 to realize automatic air cooling discharging. The air cooling rod pushing frame 501 and the automatic rod discharging end part are respectively provided with a plurality of rod feeding roller devices, and the specific setting quantity can be reasonably configured according to the length of the sucker rod, so that the sucker rod can be stably conveyed and supported.

As shown in fig. 5, the rod-feeding roller device includes a rod-feeding support frame 503, a rod-feeding driving motor 504 is fixedly mounted on the rod-feeding support frame 503, a rod-feeding conveying roller 505 is connected to a power output end of the rod-feeding driving motor 504, and a middle portion of the rod-feeding conveying roller 505 is concavely disposed. The rod feeding driving motor 504 drives the rod body conveying roller 505 to rotate, so as to realize feeding and feeding of the sucker rod. Because the height of the air-cooled rod pushing frame 501 is different from that of the automatic rod discharging frame 502, the height of the rod feeding support frame 503 can be set reasonably according to the corresponding frame to realize conveying and matching. The middle part of the rod body conveying roller 505 is concavely provided with a limit for the conveyed sucker rod, so that the sucker rod is prevented from falling off, and smooth conveying is facilitated.

As shown in fig. 1, 2 and 3, the air-cooled bar pushing frame 501 is uniformly provided with bar pushing devices, the side parts of each bar pushing device are respectively and correspondingly provided with a feeding guide bar 506, and at least two of the side parts of the feeding guide bars 506 are provided with bar feeding devices matched with each other. The rod body feeding device transfers the sucker rod from each rod feeding roller device to the air-cooling rod discharging pushing frame 501, in the process, the feeding guide rod 506 plays roles of feeding guide and auxiliary support, and the rod feeding rod discharging pushing device is used for pushing and feeding the sucker rod. The rod feeding and rod discharging pushing device comprises rod body pushing augers 507 rotatably mounted on the air cooling rod discharging pushing frame 501, the rod body pushing augers 507 are in transmission connection with auger driving motors 508, after feeding through the feeding guide rods 506, sucker rods enter the spirals of the rod body pushing augers 507, and the sucker rods are pushed forward through synchronous rotation of the rod body pushing augers 507.

As shown in fig. 3 and 4, the rod feeding device of this embodiment includes a rod feeding arm 509 rotatably mounted on the air-cooled rod pushing frame 501, where the rod feeding arm 509 extends to an obliquely lower portion of the adjacent rod conveying roller 505, a feeding driving cylinder 510 is matched with the rod feeding arm 509, and the feeding driving cylinder 510 and the rod feeding arm 509 are rotatably assembled. According to the installation layout position, the feeding driving cylinder 510 may be rotatably disposed on the air-cooled bar pushing frame 501 through an installation support, the telescopic end of the feeding driving cylinder 510 may be rotatably assembled with the bar feeding arm 509 through a connecting arm, when the feeding driving cylinder 510 extends, the bar feeding arm 509 may be driven to rotate, and the outer end of the feeding driving cylinder rotates from the obliquely lower side of the bar conveying roller 505 to the obliquely upper side thereof, so that the sucker rod is taken away from the bar conveying roller 505 by the bar feeding arm 509 in the process. The top of the rod body feeding arm 509 is provided with an arc-shaped material limiting opening 511 for receiving the sucker rod, so as to prevent the sucker rod from prematurely rolling off the rod body feeding arm 509 and from entering the rod body pushing auger 507 by means of the feeding guide rod 506. The feeding guide rod 506 is close to one end of the rod feeding roller device, and is arranged at the end of the rod feeding roller device, which is gradually raised from inside to outside and used for the sucker rod, so that the sucker rod can be transited from the rod feeding arm 509 to the rod pushing auger 507, and the lower end of the feeding guide rod 506 is lower than the pushing surface of the rod pushing auger 507, so that the sucker rod can be smoothly contacted with and pushed by the rod pushing auger 507, and the sucker rod is naturally cooled in the pushing process of utilizing the rod pushing auger 507.

As shown in fig. 2 and fig. 3, the discharge end of the air cooling rod pushing frame 501 is provided with at least two rod body jacking devices which are matched with each other, the top end of the automatic rod discharging frame 502 is uniformly provided with rod discharging guide rails 512 which are gradually inclined downwards towards the discharge end, at least two rod body receiving devices are correspondingly arranged at the side parts of the feeding ends of the rod discharging guide rails 512, and the rod body receiving devices are matched with the rod body jacking devices to realize the transfer of the sucker rod from the air cooling rod pushing frame 501 to the automatic rod discharging frame 502. The rod body jacking device comprises a vertically installed jacking driving cylinder 513, a V-shaped rod body jacking frame 514 is fixedly arranged at the end part of the jacking driving cylinder 513, when a sucker rod is pushed to the end part of the air cooling rod discharging pushing frame 501 by the rod body pushing auger 507, the sucker rod automatically falls onto the rod body jacking frame 514, at the moment, the jacking driving cylinder 513 is started, the rod body jacking frame 514 and the sucker rod are jacked synchronously, and the sucker rod is transferred onto the automatic rod discharging frame 502.

Specifically, the rod body supporting device comprises a rod body supporting support 515 fixedly installed and arranged towards the lower inclined end of the automatic rod discharging frame 502, the material receiving end of the rod body supporting support 515 extends to the outer side of the automatic rod discharging frame 502, the outer end of the rod body supporting support 515 rotates to install a rod body supporting joint 516, the rod body supporting support 515 is flush with the top surface of the rod body supporting joint 516 in a natural state, and a transition cambered surface 517 matched with the rod body upper jacking device is arranged at the bottom end of the rod body supporting joint 516. When the rod body upper ejection frame 514 and the sucker rod are synchronously ejected, the rod body upper ejection frame 514 is contacted with the rod body bearing joint 516 and rotates upwards, the rotation of the rod body bearing joint 516 forms avoidance on the ascending of the sucker rod, when the sucker rod is ejected to the upper part of the rod body bearing joint 516, the rod body bearing joint 516 returns, at the moment, the upper ejection driving cylinder 513 contracts, the rod body upper ejection frame 514 and the sucker rod synchronously descend, the rod body upper ejection frame 514 is blocked by the rod body bearing joint 516 in the descending process and continues to be formed downwards until returning to wait for the next rod body upper ejection task. Because the rod receiving support 515 is inclined downwardly, the sucker rod automatically travels to the rod discharge rail 512 for discharge. The rod bearing joint 516 can only rotate in the upward 90 ° range and can return automatically, but cannot rotate downwards to ensure that the sucker rod can be carried, and torsion springs can be arranged at the positions of the rod bearing joint 516 and the rod bearing support 515 to realize the functions of limiting rotation and return automatically. The provision of the transition cambered surface 517 reduces the contact area of the transition cambered surface 517 when it contacts the sucker rod, thereby reducing wear.

The sucker rod is transferred to the rod discharging guide rail 512 by the cooperation of the rod bearing joint 516 and the rod bearing support 515, and the sucker rod automatically rolls along the rod discharging guide rail 512 to the discharging end due to the gradually-lowered inclined arrangement of the rod discharging guide rail 512 from the feeding end to the discharging end of the automatic rod discharging frame 502, so that further natural cooling is formed in the process. The top end of the rod discharging guide rail 512 is also correspondingly and fixedly provided with a discharging round rod 518 for reducing friction with the sucker rod, so that the contact area between the rod discharging guide rail and the discharging round rod is small, and abrasion is reduced. The discharge end of the rod discharging guide rail 512 extends to the obliquely lower side of the adjacent rod conveying roller 505, so that the rod discharging guide rail is automatically transferred to each rod conveying roller 505 in the rolling process, so as to be convenient for conveying to the shot blasting machine 6.

The air cooling rod pushing frame 501 or the automatic rod discharging frame 502 in this embodiment is further provided with an air cooling rod controller 519, the rod feeding rod pushing device, the rod feeding device and the rod jacking device are respectively connected to the air cooling rod controller 519, and the air cooling rod controller 519 includes a microprocessor, a system bus, a display screen and other structures, which are well known to those skilled in the art and are not described in detail herein. The circuit of the auger driving motor 508 in the rod feeding device is provided with a control switch, the gas circuit or the oil circuit of the feeding driving cylinder 510 in the rod feeding device, and the gas circuit or the oil circuit of the top driving cylinder 513 in the rod top device are respectively and correspondingly provided with electromagnetic valves convenient to control, and the control switch and the electromagnetic valves are respectively connected with the air cooling rod discharging controller 519 to realize the automatic control of the air cooling rod discharging controller 519 on each device. The air cooling rod controller 519 can control the rotating speed of the auger driving motor 508, so as to control the pushing speed of the sucker rod, thereby ensuring that the sucker rod can be cooled sufficiently and naturally.

In this embodiment, the sucker rods are fed successively, and a certain gap is formed between two adjacent sucker rods in the cooling process, so that each rod body cannot be touched, the collision deformation of the rod body is prevented, and the quality of the rod body is guaranteed. The pushing and pushing-up transfer of the rod body in the whole cooling process are automatically completed under the control of the air cooling rod discharging controller 519, manual intervention is not needed, and the automation degree is high.

The description of the present utility model has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (9)

1. Automatic air cooling rod arranging machine for sucker rod heat treatment is characterized in that: the air cooling rod pushing device comprises an air cooling rod pushing frame, an automatic rod discharging frame is arranged on the air cooling rod pushing frame in a crossing mode, a feeding end of the air cooling rod pushing frame and a discharging end of the automatic rod discharging frame are located on the same side and are respectively and correspondingly provided with a plurality of rod feeding roller devices used in a matched mode, rod pushing devices are uniformly distributed on the air cooling rod pushing frame, feeding guide rods are respectively and correspondingly arranged on the side portions of the rod pushing devices, rod body feeding devices used in a matched mode are arranged on the side portions of at least two of the feeding guide rods, rod body ejection devices used in a matched mode are arranged at the discharging end of the air cooling rod pushing frame, rod body discharging guide rails which are arranged in an inclined mode and gradually lower towards the discharging end are uniformly distributed on the top end of the automatic rod discharging frame, rod body receiving devices are correspondingly arranged on the side portions of the feeding ends of the automatic rod discharging frame, rod body receiving devices are matched with the rod body ejection devices, and rod body ejection controllers are further arranged on the rod body pushing devices, the air cooling rod ejection devices and the air cooling rod ejection devices are connected to the air cooling rod ejection devices respectively.

2. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 1, wherein: the row rod pushing device comprises a rod body pushing auger rotatably installed on the air cooling row rod pushing frame, and the rod body pushing auger is in transmission connection with an auger driving motor.

3. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 2, wherein: the feeding guide rod is close to one end of the rod feeding roller device and is gradually raised from inside to outside, and the lower end of the feeding guide rod is lower than the pushing surface of the rod body pushing auger.

4. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 1, wherein: the rod body feeding device comprises a rod body feeding arm rotatably mounted on the air cooling rod pushing frame, a feeding driving cylinder is arranged in cooperation with the rod body feeding arm, and the feeding driving cylinder is rotatably assembled with the rod body feeding arm.

5. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 4, wherein: the top of the rod body feeding arm is provided with an arc-shaped material limiting opening which is convenient for receiving the sucker rod.

6. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 1, wherein: the rod body jacking device comprises a jacking driving cylinder which is vertically installed, and a V-shaped rod body jacking material frame is fixedly arranged at the end part of the jacking driving cylinder.

7. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 1, wherein: the rod body bearing device comprises a rod body bearing support which is fixedly installed and is arranged towards the discharging end of the automatic rod discharging frame in a gradually-lowered inclined mode, the receiving end of the rod body bearing support extends to the outer side of the automatic rod discharging frame, the outer end of the rod body bearing support is rotatably provided with a rod body bearing joint, and the bottom end of the rod body bearing joint is provided with a transition cambered surface matched with the rod body jacking device.

8. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 1, wherein: the rod conveying roller device comprises a rod conveying support frame, a rod conveying driving motor is fixedly installed on the rod conveying support frame, a rod conveying roller is connected to the power output end of the rod conveying driving motor, and the middle of the rod conveying roller is concavely arranged.

9. The automatic air-cooled sucker rod discharging machine for heat treatment of sucker rods as set forth in claim 1, wherein: the top end of the discharging guide rail of the discharging rod is fixedly provided with a discharging round rod for reducing friction between the discharging round rod and the sucker rod.