CN108545450B - Loading frame for slender materials - Google Patents

Abstract

The invention discloses a feeding frame for slender materials, which comprises a frame, wherein a material frame is arranged on the frame along the length direction of the frame, a lifting mechanism driven by a first power device is arranged on the frame at a position corresponding to the material frame, a discharging and conveying mechanism is connected to the frame positioned at the downstream of the material frame, a buffer platform is connected to the frame positioned at the downstream of the discharging and conveying mechanism, and a supporting roller set is rotatably arranged on the frame positioned at the downstream of the buffer platform; the rack is also provided with a material pushing mechanism in a swinging way, wherein the material pushing mechanism is used for transferring materials from the discharging and conveying mechanism to the caching platform; a material blocking device is arranged on the frame at the position corresponding to the buffer storage platform; a stroking mechanism is arranged on the frame above the caching platform. The automatic conveying device has the advantages that the automatic conveying of materials is realized one by one, meanwhile, the effects of automatically straightening and smoothing the materials in conveying are achieved, the smoothness and the continuity of material feeding are effectively guaranteed, and the problems that faults occur easily and the feeding efficiency is affected are solved compared with the traditional materials.

Description

Loading frame for slender materials

Technical Field

The invention belongs to the technical field of feeding, and particularly relates to a feeding frame for slender materials.

Background

At present, for the feeding of the thin rod or the thin tube, the diameter of the thin rod or the thin tube is smaller, the problem that the thin rod or the thin tube is easy to cross and wind in a storage frame of a common feeding frame is solved, meanwhile, when the thin rod or the thin tube is lifted by utilizing a common feeding machine, only one thin rod or thin tube can not be fed, and further automatic feeding is not smooth, faults occur easily, and the feeding efficiency is greatly influenced.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the utility model provides a loading frame for slender class material to solve the problem that automatic loading frame of loading frame among the prior art is unsmooth, easy to take place trouble and material loading efficiency.

In order to solve the technical problems, the technical scheme of the invention is as follows: the feeding frame for the slender materials comprises a frame, wherein a material frame is arranged on the frame along the length direction of the frame, a lifting mechanism driven by a first power device is arranged on the frame at a position corresponding to the material frame, a discharging and conveying mechanism is connected to the frame positioned at the downstream of the material frame, a buffer platform is connected to the frame positioned at the downstream of the discharging and conveying mechanism, and a supporting roller set is rotatably arranged on the frame positioned at the downstream of the buffer platform;

the rack is also provided with a material pushing mechanism in a swinging way, wherein the material pushing mechanism is used for transferring materials from the material discharging and conveying mechanism to the buffer platform; a material blocking device is arranged on the rack at a position corresponding to the cache platform; and a stroking mechanism is arranged on the frame above the caching platform.

As an improvement, the material jacking mechanism comprises a swing frame rotatably installed on the frame, a first linear driving device is arranged at one end of the swing frame, which is close to the discharging and conveying mechanism, a jacking rod is driven on the first linear driving device, a clamping block is arranged on the jacking rod, and a clamping groove is formed between the clamping block and the jacking rod; the other end of the swing frame is provided with a second linear driving device, and two ends of the second linear driving device are respectively hinged with the swing frame and the frame.

As a further improvement, the stroking mechanism comprises a stroking chain which is arranged on the frame and driven by a second power device, and at least one stroking shaft which extends towards the direction of the caching platform is arranged on the stroking chain;

the stroking mechanism is positioned between the stop device and the discharging and conveying mechanism.

As a still further improvement, the material blocking device comprises a rotating shaft rotatably mounted on the frame and a third linear driving device hinged on the frame, wherein the rotating shaft is positioned below the buffer platform and is arranged along the length direction of the frame; a plurality of L-shaped baffle plates are arranged on the rotating shaft, and one baffle plate is hinged with the third linear driving device.

As a further improvement, the buffer platform comprises a plurality of support plates which are arranged on the rack and are obliquely arranged, and the support plates are arranged in one-to-one correspondence with the striker plates; the high end of the supporting plate is close to the discharging and conveying mechanism.

As a further improvement, the discharging and conveying mechanism comprises a driving shaft rotatably mounted on the frame and driven by a third power device, the driving shaft is arranged along the length direction of the frame, a plurality of first belt pulleys are arranged on the driving shaft, a second belt pulley is rotatably mounted on the frame between the first belt pulleys and the material frame, and a transmission belt is arranged between the first belt pulleys and the second belt pulleys;

and a blocking circular tube arranged along the length direction of the frame is arranged on the frame above the transmission belt.

As a further improvement, the lifting mechanism comprises a plurality of lifting belts and rollers which are coaxially arranged with the second belt pulley, and further comprises a belt shaft which is rotatably arranged on the frame and is driven by the first power device, wherein the belt shaft and the lifting belts are arranged along the length direction of the frame;

one end of the lifting belt is arranged on the frame, and the other end of the lifting belt winds the roller and is fixedly connected with the belt shaft.

As a further improvement, a material end positioning backup plate is arranged at the end part of the frame corresponding to the material frame, and the distance between the material end positioning backup plate and the frame is larger than that between the material overhead conveying mechanism and the frame.

As a further improvement, the belt shaft extends out of the end part of the frame and is provided with a driving gear, a limit gear rotatably arranged on the frame is meshed with the driving gear, a plurality of mounting holes are formed in the limit gear, and a limit contact screw is arranged in one of the mounting holes; the frames positioned on two sides of the limit contact screw are provided with mounting seats, and each mounting seat is provided with a limit switch.

As a further improvement, the supporting roller group comprises mounting blocks which are arranged in one-to-one correspondence with the supporting plates, a first roller is transversely and rotatably arranged above the mounting blocks, a second roller is vertically and rotatably arranged on the side surface of the mounting blocks, and the first roller and the second roller are mutually staggered;

the mounting blocks and the striker plates are distributed on the machine frame on two sides of the supporting plate.

After the technical scheme is adopted, the invention has the following effects:

the feeding frame for the slender materials comprises a frame, wherein a material frame which is arranged along the length direction of the frame is arranged on the frame, a lifting mechanism driven by a first power device is arranged on the frame at a position corresponding to the material frame, a discharging and conveying mechanism is connected to the frame positioned at the downstream of the material frame, a buffer platform is connected to the frame positioned at the downstream of the discharging and conveying mechanism, and a supporting roller group is rotatably arranged on the frame positioned at the downstream of the buffer platform; the rack is also provided with a material pushing mechanism in a swinging way, wherein the material pushing mechanism is used for transferring materials from the discharging and conveying mechanism to the caching platform; a material blocking device is arranged on the frame at the position corresponding to the buffer storage platform; be equipped with in the frame that is located the buffer memory platform top and smooth out with fingers material mechanism, based on above-mentioned structure, this elongated class material is with the work in work with the material frame, prevent a plurality of materials in the material frame, afterwards, the elevating system promotes the material, at the in-process of promotion, the material can transfer to row material conveying mechanism on, afterwards the material top send the mechanism to send the material to the buffer memory platform one by one, at the in-process of transferring, the top send end of material is blocked through the stop device, simultaneously, the other end of material is smoothed out with fingers through the material mechanism, afterwards the stop device no longer blocks the material, at this moment, the material just moves to the backing roll group direction, afterwards send this material through other mechanisms.

In conclusion, by adopting the feeding frame for the long and thin materials, the automatic conveying of the materials one by one is realized, meanwhile, the effects of automatically feeding and straightening the materials in conveying are achieved, the smoothness and continuity of material feeding are effectively ensured, and the problems that faults easily occur and the feeding efficiency is affected are solved compared with the prior art.

The material jacking mechanism comprises a swing frame rotatably arranged on the frame, one end of the swing frame, which is close to the material discharging and conveying mechanism, is provided with a first linear driving device, a jacking rod is driven on the first linear driving device, a clamping block is arranged on the jacking rod, and a clamping groove is arranged between the clamping block and the jacking rod; the other end of the swinging frame is provided with a second linear driving device, two ends of the second linear driving device are respectively hinged to the swinging frame and the rack, so that when materials are conveyed in a pushing mode, the second linear driving device drives the swinging frame to swing towards the direction of the discharging conveying mechanism, then the first linear driving device drives the lifting rod to ascend, a material is clamped in a swinging face hole through a clamping groove between the clamping block and the lifting rod, then the swinging frame swings towards the direction of the caching platform, then the lifting rod descends until the materials fall onto the caching platform, and the single conveying mechanism for the materials is adopted.

The material smoothing mechanism comprises a material smoothing chain which is arranged on the frame and driven by the second power device, and at least one material smoothing shaft extending towards the direction of the buffer platform is arranged on the material smoothing chain; the material straightening mechanism is positioned between the material blocking device and the material discharging and conveying mechanism, so that in the material jacking process, the material straightening chain rotates to drive the material straightening shaft to circularly act, and the material straightening and straightening of the material are completed.

The material blocking device comprises a rotating shaft rotatably arranged on the frame and a third linear driving device hinged on the frame, and the rotating shaft is positioned below the cache platform and is arranged along the length direction of the frame; be equipped with a plurality of L-shaped striker plates in the pivot, wherein a striker plate is articulated with third sharp drive arrangement, thereby when the top send the material, third sharp drive arrangement drive pivot is rotatory, the pivot is rotatory to drive a plurality of striker plates action, and the protrusion buffer storage platform, and then realize blockking the effect to the material, otherwise, the pivot counter-direction is rotatory, drive the striker plate and be located buffer storage platform's below, the material alright remove to the backing roll group direction, on the sum, through wobbling striker plate, not only realized blockking the material, do not influence the removal of material to the low reaches moreover.

The buffer platform comprises a plurality of support plates which are arranged on the frame and are obliquely arranged, and the support plates are arranged in one-to-one correspondence with the striker plates; the high end of backup pad is close to row material conveying mechanism to through the backup pad of a plurality of slope settings, realize the material and to the self-moving of backing roll group, can not cause the influence to the swing of striker plate moreover.

The discharging and conveying mechanism comprises a driving shaft which is rotatably arranged on the frame and driven by a third power device, the driving shaft is arranged along the length direction of the frame, a plurality of first belt pulleys are arranged on the driving shaft, a second belt pulley is rotatably arranged on the frame between the first belt pulleys and the material frame, and a transmission belt is arranged between the first belt pulleys and the second belt pulleys; be equipped with in the frame that is located the drive belt top and follow the blocking pipe that frame length direction arranged to at the in-process that hoist mechanism promoted the material, third power device drives the drive shaft and rotates, the drive shaft just drives first belt pulley and rotates, first belt pulley passes through the drive belt and drives the second belt pulley and rotate, again because the material frame links up the setting with row material conveying mechanism, and then promote the material to become to transfer to the drive belt on, the material that is located the drive belt blocks through blocking the pipe, avoid the material to directly get into the buffer memory platform in batches, adopt this row material conveying mechanism not only realized blocking to the material, moreover can effectually avoid the material to return in the material frame, enable the material tiling in proper order on the drive belt simultaneously, carry out single top for the material top to send the mechanism and offer the guarantee to the material.

The lifting mechanism comprises a plurality of lifting belts and rollers which are coaxially arranged with the second belt pulley, and also comprises a belt shaft which is rotatably arranged on the frame and driven by the first power device, wherein the belt shaft and the plurality of lifting belts are arranged along the length direction of the frame; one end of lifting belt sets up in the frame, and lifting belt's the other end winding gyro wheel and with belt axle fixed connection to when promoting the material, first power device drives the belt axle and rotates, and the rotation of belt axle can stimulate lifting belt action, and then the material in the material frame just can be promoted the skin pulling, and follow the material frame and carry out upward movement, simple structure, it is effectual to the promotion of material.

Because the frame end corresponding to the material frame is provided with the material end positioning backup plate, the distance between the material end positioning backup plate and the frame is greater than the distance between the material pushing mechanism and the frame, thereby ensuring the regularity of the material in the material frame through the material end positioning backup plate, and simultaneously, effectively avoiding the idle stroke work of the material pushing mechanism.

Because the belt shaft extends out of the end part of the frame and is provided with the driving gear, the driving gear is meshed with the limiting gear rotatably arranged on the frame, the limiting gear is provided with a plurality of mounting holes, and one mounting hole is provided with a limiting contact screw; be equipped with the mount pad in the frame that is located spacing contact screw both sides, all be equipped with limit switch on every mount pad to at the belt axle drive the in-process that promotes belt work, through the detection of two limit switches to spacing contact screw, prevent that the belt axle from driving the promotion belt and surpassing limit operating position.

Because the backing roll group includes the installation piece that sets up with the backup pad one-to-one, the first gyro wheel is installed in the top transverse rotation of installation piece, and the second gyro wheel is installed in the vertical rotation of side of installation piece, and first gyro wheel and second gyro wheel stagger each other and set up to be favorable to the material when exporting through pivoted first gyro wheel and second gyro wheel, reduce the frictional force between material and first gyro wheel or the second gyro wheel.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 at another angle;

FIG. 3 is a view in the direction A of FIG. 1;

FIG. 4 is an enlarged view of B in FIG. 3;

FIG. 5 is a view in the direction C of FIG. 2;

FIG. 6 is an enlarged view of D of FIG. 2;

in the figure, a 1-rack; 2-a material frame; 201, positioning a material end head backup plate; 202-a pallet; 3-a lifting mechanism; 301-a first power plant; 3011-a drive gear; 3012-a limit gear; 3013-mounting holes; 3014-limit contact screw; 3015-mounting base; 3016-limit switch; 302-lifting a belt; 303-a roller; 304-a belt shaft; 4-a discharging and conveying mechanism; 401-third power means; 402-a drive shaft; 403-a first pulley; 404-a second pulley; 405-a transmission belt; 406-blocking the round tube; 5-caching a platform; 501-supporting plates; 6-a backup roll set; 601-mounting blocks; 602-a first roller; 603-a second roller; 7-a material pushing mechanism; 701-swinging frame; 702-a first linear drive; 703-lifting a rod; 704-clamping blocks; 705-clamping groove; 706-a second linear drive; 8-a material blocking device; 801-a rotating shaft; 802-a third linear drive; 803-a striker plate; 9-a material smoothing mechanism; 901-a second power plant; 902-stroking the material chain; 903-stroking the shaft; 10-material.

Detailed Description

The present invention will be described in further detail with reference to the following examples.

As shown in fig. 1 and fig. 2 together, a feeding frame for slender materials comprises a frame 1, wherein a material frame 2 arranged along the length direction of the frame 1 is arranged on the frame 1, a lifting mechanism 3 driven by a first power device 301 is arranged on the frame 1 at a position corresponding to the material frame 2, a discharging and conveying mechanism 4 is connected to the frame 1 positioned at the downstream of the material frame 2, a buffer platform 5 is connected to the frame 1 positioned at the downstream of the discharging and conveying mechanism 4, and a supporting roller group 6 is rotatably arranged on the frame 1 positioned at the downstream of the buffer platform 5; the rack 1 is also provided with a material pushing mechanism 7 in a swinging way, which is used for transferring a material 10 from the discharging and conveying mechanism 4 to the buffer platform 5; a material blocking device 8 is arranged on the frame 1 at a position corresponding to the cache platform 5; a stroking mechanism 9 is arranged on the frame 1 above the caching platform 5, and the stroking mechanism 9 is arranged between the stop device 8 and the discharging and conveying mechanism 4.

As shown in fig. 1 and 3 together, the material jacking mechanism 7 includes a swing frame 701 rotatably mounted on the frame 1, one end of the swing frame 701 near the material discharging and conveying mechanism 4 is provided with a first linear driving device 702, a jacking rod 703 is driven on the first linear driving device 702, a clamping block 704 is arranged on the jacking rod 703, and a clamping slot 705 is arranged between the clamping block 704 and the jacking rod 703 (see fig. 4); the other end of the swing frame 701 is provided with a second linear driving device 706, two ends of the second linear driving device 706 are respectively hinged with the swing frame 701 and the frame 1, and in this scheme, the first linear driving device 702 and the second linear driving device 706 are both cylinders.

As shown in fig. 1, 2 and 3 together, the stroking mechanism 9 includes a stroking chain 902 disposed on the frame 1 and driven by a second power device 901, the stroking chain 902 is disposed along the length direction of the frame 1, and at least one stroking shaft 903 extending toward the buffer platform 5 is disposed on the stroking chain 902, in this embodiment, the second power device 901 is a sprocket driven by a motor.

As shown in fig. 1 and 3 together, the material blocking device 8 comprises a rotating shaft 801 rotatably mounted on the frame 1 and a third linear driving device 802 hinged on the frame 1, wherein the rotating shaft 801 is positioned below the buffer platform 5 and is arranged along the length direction of the frame 1; the rotating shaft 801 is provided with a plurality of L-shaped baffle plates 803, wherein one baffle plate 803 is hinged with a third linear driving device 802, and in this scheme, the third linear driving device 802 is a cylinder.

As shown in fig. 1 and fig. 3 together, the buffer platform 5 includes a plurality of support plates 501 disposed on the frame 1 and disposed obliquely, the same distance is provided between two adjacent support plates 501, and the support plates 501 are disposed in one-to-one correspondence with the striker plates 803; the high end of the supporting plate 501 is close to the discharging and conveying mechanism 4, and the two are connected.

As shown in fig. 1 and 3 together, the discharging and conveying mechanism 4 comprises a driving shaft 402 rotatably mounted on the frame 1 and driven by a third power device 401, the driving shaft 402 is arranged along the length direction of the frame 1, a plurality of first belt pulleys 403 are arranged on the driving shaft 402, a second belt pulley 404 is rotatably mounted on the frame 1 between the first belt pulleys 403 and the material frame 2, and a transmission belt 405 is arranged between the first belt pulleys 403 and the second belt pulleys 404; a blocking circular tube 406 is arranged on the frame 1 above the transmission belt 405 along the length direction of the frame 1, and preferably, the blocking circular tube 406 abuts against the transmission belt 405; in this embodiment, the third power device 401 is a motor-driven chain transmission mechanism.

As shown in fig. 1 and 2 together, the lifting mechanism 3 comprises a plurality of lifting belts 302 and rollers 303 coaxially arranged with a second pulley 404, the diameter of the second pulley 404 being the same as the diameter of the rollers 303; the belt shaft 304 is rotatably arranged on the frame 1 and driven by the first power device 301, the rotation direction of the belt shaft 304 is the same as the transmission direction of the transmission belt 405, the belt shaft 304 and the plurality of lifting belts 302 are all arranged along the length direction of the frame 1, and the same distance is arranged between two adjacent lifting belts 302; one end of the lifting belt 302 is disposed on the frame 1, and the other end of the lifting belt 302 is wound around the roller 303 and is fixedly connected with the belt shaft 304.

The end of the frame 1 corresponding to the material frame 2 is provided with a material end positioning backup plate 201 (see fig. 1), and preferably, the material end positioning backup plate 201 and the material jacking mechanism 7 are arranged at the same end of the frame 1, and the distance between the material end positioning backup plate 201 and the frame 1 is greater than the distance between the material jacking mechanism 7 (specifically: jacking rod 703) and the frame 1; the material frame 2 is formed by combining a supporting plate 202 and frames 1 on two sides of the supporting plate 202, and the supporting plate 202 and the lifting belt 302 are arranged in one-to-one correspondence.

As shown in fig. 2 and fig. 5 together, the belt shaft 301 extends out of the end of the frame 1 and is directly processed with a driving gear 3011, the driving gear 3011 and the material end positioning backup plate 201 are distributed at two ends of the frame 1, the driving gear 3011 is meshed with a limiting gear 3012 rotatably installed on the frame 1, the limiting gear 3012 is provided with a plurality of mounting holes 3013, and one mounting hole 3013 is provided with a limiting contact screw 3014; mounting seats 3015 are arranged on the machine frame 1 positioned on two sides of the limiting contact screw 3014, and a limiting switch 3016 is arranged on each mounting seat 3015.

As shown in fig. 6, the supporting roller set 6 includes mounting blocks 601 corresponding to the supporting plates 501 one by one, a first roller 602 is mounted on the upper surface of the mounting block 601 in a transverse rotation manner, a second roller 603 is mounted on the side surface of the mounting block 601 in a vertical rotation manner, and the first roller 602 and the second roller 603 are staggered with each other; the mounting blocks 601 and the striker plates 803 are distributed on the frame 1 on both sides of the support plate 501, and preferably, the first roller 602 protrudes from the side surface of the mounting block 601 on which the second roller 603 is provided, and the second roller 603 protrudes from the upper surface of the mounting block 601.

The executing devices such as the air cylinder, the motor and the like mentioned in the embodiment are all conventional technologies at present, the specific structure and principle of the air cylinder, the motor and other transmission mechanisms and other designs are disclosed in detail in a mechanical design manual fifth edition printed by Beijing fifth edition of 4 th month in 2008, the structure is clear, the vacuum element, the gas circuit and the program control are disclosed in detail in a modern practical pneumatic technology 3 rd edition SMC training teaching material published by mechanical industry press in 08 th month in 2008, the gas circuit structure in the embodiment is also the prior art, the control and the travel switch of the motor are also described in detail in a motor driving and speed regulating book published by chemical industry press in 07 th month 01 in 2015 are clearly shown, and therefore, the circuit and the gas circuit connection are clear.

The above examples are merely illustrative of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and adaptations of the technical solution of the present invention should and are intended to fall within the scope of the present invention as defined in the claims.

Claims (7)

1. The utility model provides a slender class material is with material loading frame, includes frame, its characterized in that: the machine frame is provided with a material frame arranged along the length direction of the machine frame, a lifting mechanism driven by a first power device is arranged on the machine frame at a position corresponding to the material frame, a discharging and conveying mechanism is connected to the machine frame positioned at the downstream of the material frame, a buffer platform is connected to the machine frame positioned at the downstream of the discharging and conveying mechanism, and a supporting roller set is rotatably arranged on the machine frame positioned at the downstream of the buffer platform;

the rack is also provided with a material pushing mechanism in a swinging way, wherein the material pushing mechanism is used for transferring materials from the material discharging and conveying mechanism to the buffer platform; a material blocking device is arranged on the rack at a position corresponding to the cache platform; a stroking mechanism is arranged on the frame above the cache platform; the material jacking mechanism comprises a swing frame rotatably installed on the frame, a first linear driving device is arranged at one end, close to the discharging and conveying mechanism, of the swing frame, a jacking rod is driven on the first linear driving device, a clamping block is arranged on the jacking rod, and a clamping groove is formed between the clamping block and the jacking rod; the other end of the swing frame is provided with a second linear driving device, and two ends of the second linear driving device are respectively hinged with the swing frame and the rack; the stroking mechanism comprises a stroking chain which is arranged on the frame and driven by a second power device, and at least one stroking shaft which extends towards the cache platform is arranged on the stroking chain; the stroking mechanism is positioned between the stop device and the discharging and conveying mechanism; the material blocking device comprises a rotating shaft rotatably installed on the frame and a third linear driving device hinged on the frame, and the rotating shaft is positioned below the buffer platform and is arranged along the length direction of the frame; a plurality of L-shaped baffle plates are arranged on the rotating shaft, and one baffle plate is hinged with the third linear driving device;

and a blocking circular tube arranged along the length direction of the frame is arranged on the frame above the discharging and conveying mechanism.

2. A loading ledge for elongated objects as defined in claim 1, wherein: the buffer platform comprises a plurality of support plates which are arranged on the rack and are obliquely arranged, and the support plates are arranged in one-to-one correspondence with the striker plates; the high end of the supporting plate is close to the discharging and conveying mechanism.

3. A loading ledge for elongated objects as defined in claim 2, wherein: the discharging and conveying mechanism comprises a driving shaft which is rotatably arranged on the frame and driven by a third power device, the driving shaft is arranged along the length direction of the frame, a plurality of first belt pulleys are arranged on the driving shaft, a second belt pulley is rotatably arranged on the frame and positioned between the first belt pulleys and the material frame, and a transmission belt is arranged between the first belt pulleys and the second belt pulleys.

4. A loading ledge for elongated objects as defined in claim 3, wherein: the lifting mechanism comprises a plurality of lifting belts, rollers coaxially arranged with the second belt pulley, and belt shafts rotatably arranged on the frame and driven by the first power device, wherein the belt shafts and the lifting belts are arranged along the length direction of the frame;

one end of the lifting belt is arranged on the frame, and the other end of the lifting belt winds the roller and is fixedly connected with the belt shaft.

5. The elongated material loading frame for use with a material of the elongated type according to claim 4, wherein: the end part of the frame corresponding to the material frame is provided with a material end positioning backup plate, and the distance between the material end positioning backup plate and the frame is greater than the distance between the material overhead conveying mechanism and the frame.

6. A loading ledge for elongated objects as defined in claim 5, wherein: the belt shaft extends out of the end part of the frame and is provided with a driving gear, a limit gear rotatably arranged on the frame is meshed with the driving gear, a plurality of mounting holes are formed in the limit gear, and a limit contact screw is arranged in one of the mounting holes; the frames positioned on two sides of the limit contact screw are provided with mounting seats, and each mounting seat is provided with a limit switch.

7. The elongated material loading frame for use with a material of the elongated type according to claim 6, wherein: the support roller set comprises mounting blocks which are arranged in one-to-one correspondence with the support plates, a first roller is transversely and rotatably arranged above the mounting blocks, a second roller is vertically and rotatably arranged on the side surface of the mounting blocks, and the first roller and the second roller are mutually staggered;

the mounting blocks and the striker plates are distributed on the machine frame on two sides of the supporting plate.