CN221559652U - Reinforcing bar cutting machine for reinforcing bar anchor assembly - Google Patents

Abstract

The utility model discloses a steel bar cutting machine for a steel bar anchoring piece, which comprises a bracket, wherein a trough is arranged at the upper end of the bracket, the trough is obliquely arranged, the oblique lower end of the trough is provided with a discharge opening, a feeding mechanism is arranged below the discharge opening, the feeding mechanism is provided with a pushing block, a baffle rod is arranged in front of the pushing direction of the pushing block, a receiving trough is formed between the baffle rod and the feeding mechanism, a plurality of rotatable feeding rollers are arranged below the receiving trough, the steel bar cutting machine further comprises a pushing mechanism arranged at one end of the receiving trough, the pushing mechanism can push single steel bar in the receiving trough forwards, a fixed-length assembly is arranged in front of the other end of the receiving trough, the baffle plate is provided with a baffle plate for controlling the length of the steel bar, a cutting mechanism is arranged between the baffle plate and the feeding rollers, the baffle plate is provided with a cutter for cutting the steel bar, and an included angle range between the cutting edge and the steel bar is 30-60 degrees when the steel bar is cut. The utility model can realize the feeding, conveying, length fixing and cutting of the reinforced steel bar single, has reliable operation, greatly improves the production efficiency and saves the labor cost.

Description

Reinforcing bar cutting machine for reinforcing bar anchor assembly

Technical Field

The utility model relates to the technical field of steel bar processing equipment, in particular to a steel bar cutting machine for a steel bar anchoring piece.

Background

The granule spray-seeding ecological restoration technology is increasingly applied to rock slope greening, and in order to increase the adhesive force of spray-seeding organic matters on the rock slope and solidify the organic matters into an integral plant growth layer resistant to wind erosion and rain erosion, a metal net is required to be paved on the rock slope before spray seeding. When the metal net is paved, the metal net is firmly fixed on the rock slope by using a steel bar anchoring piece.

At present, the blanking of the anchoring piece is usually performed manually, the whole steel bar is put into a steel bar cutting machine, and the steel bar is cut into required small sections by measuring and scribing or setting a fixed-length block. The scribing mode is only used for blanking a small amount of pieces, the mode of setting the fixed-length blocks can be used for batch production, but the condition that the size is inconsistent due to the fact that the steel bars cannot touch the fixed-length blocks sometimes occurs, when the fixed-length blocks are adjusted, the disassembly operation is often carried out, time is wasted, the operation is complicated, and in addition, the defects of low operation speed and high labor intensity exist in manual feeding. Because the steel bar anchoring piece needs to be nailed into a pre-drilled hole on the rock slope, the end head of the steel bar anchoring piece is generally beveled to form an oblique angle of 45 degrees so as to facilitate nailing, and therefore, the working procedure of chamfering is added after the steel bar is cut into required small sections, and the defects of long labor time and low efficiency occur.

Disclosure of utility model

The utility model aims to solve the technical problems, and provides the steel bar cutting machine for the steel bar anchoring piece, which has the functions of feeding, conveying, fixing length, cutting and the like of a steel bar, is reliable in operation, greatly improves the production efficiency and saves the labor cost.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a reinforcing bar cutting machine for anchor clamps of reinforcing bar, includes the support, and its upper end is provided with the silo, and the silo slant sets up, and the slant lower extreme of silo is the discharge opening, is provided with feed mechanism in the below of discharge opening, feed mechanism has the ejector pad, and the ejector pad can reciprocate to the feed opening direction, the ejector pad has the draw-in groove of L type, and during the discharge opening unloading, the draw-in groove can support single reinforcing bar, sets up the shelves pole in the place ahead of ejector pad propelling movement direction, forms the stock receiving groove between shelves pole and the feed mechanism, is provided with rotatable a plurality of feed rolls below the stock receiving groove on the support, still includes the pushing equipment who sets up in stock receiving groove one end, and the pushing equipment can be with the single reinforcing bar forward propelling movement in the stock receiving groove, is provided with the fixed length subassembly in the place ahead of stock receiving groove other end, and has the baffle of control reinforcing bar length, be provided with cutting mechanism between baffle and the feed roll, it has the cutter that is used for cutting the reinforcing bar, when cutting the contained angle scope between cutting edge and the cutting bar is 30-60.

Further, the trough is a U-shaped trough and comprises a bottom plate which is obliquely arranged and side baffles which are connected to the left end and the right end of the bottom plate, and an opening for accommodating the pushing block to move is formed in the bottom plate.

Further, the feeding mechanism further comprises a feeding guide plate, a sliding groove is formed in the feeding guide plate, a pushing block is connected with the sliding groove in a sliding mode, and a telescopic rod is connected with the pushing block.

Further, the feeding guide plate is provided with a feeding inclined plane and a discharging inclined plane, the feeding inclined plane is perpendicular to the bottom plate, the steel bar is guided to the discharging inclined plane when the pushing block stretches out of feeding, the discharging inclined plane is perpendicular to the feeding inclined plane, and the steel bar is guided into the receiving groove when the pushing block retracts to discharge.

Further, a rectangular key is arranged on one side, close to the feeding guide plate, of the push block, the rectangular key is embedded into the sliding groove and can slide in the sliding groove, the push block corresponds to the opening of the bottom plate, and the push block can move up and down in a direction perpendicular to the bottom surface of the sliding groove.

Further, the pushing mechanism comprises a pushing frame, the pushing frame is fixed on the support, a pushing cylinder is arranged on the pushing frame, and the pushing cylinder corresponds to the steel bars falling into the receiving groove.

Further, the feeding roller assembly comprises a connecting frame hinged with the bracket, a pressing roller rotationally connected with the connecting frame, and a spring connected with the bracket and the connecting frame.

Further, two guide plates are arranged at the rear of the feeding roller and are in an splayed shape, the wide end of each guide plate is a feeding end, the narrow end of each guide plate is a discharging end, and supporting plates are arranged below the two guide plates.

Further, the discharge end of the guide plate faces to the intersection position of the feeding roller and the compression roller, a guide sleeve is arranged in front of the feeding roller, and a sleeve opening of the guide sleeve corresponds to the discharge end and can pass through a single steel bar.

Further, the fixed length assembly further comprises a support frame connected with the cutting mechanism, and the baffle is detachably connected to the support frame and can move on the support frame to adjust the distance between the baffle and the cutter.

Further, a guide groove is arranged on the cutting mechanism, the guide groove is obliquely arranged and used for guiding the cut steel bars, a material receiving box is arranged below the guide groove, and the cut steel bars automatically slide into the material receiving box along the guide groove.

Compared with the prior art, the utility model has the advantages and positive effects that: a plurality of steel bars can be placed in the trough at one time, so that the material taking times are reduced, and the material loading time is saved; the pushing block of the feeding mechanism is driven by the feeding cylinder, and one steel bar is fed after each expansion and contraction, so that the automation degree is high; the pushing cylinder of the pushing mechanism automatically pushes the steel bars forwards, so that the speed is high and the efficiency is high; the steel bars are conveyed by the feeding rollers, and the pressing rollers are pressed down, so that the stability of the steel bars in the conveying process is ensured; under the guidance of the guide plate, the steel bars enter the guide sleeve, so that the accurate trend of the steel bars is ensured; the length of the steel bar is consistent under the fixed-length limit of the baffle, and the steel bar is cut into the steel bar with the tip at the end part by the cutting mechanism, so that the processing speed is improved, the time is saved, the length of the steel bar is consistent, the precision is high, the working procedures are shortened, and the efficiency is improved; the cut steel bars automatically slide into the material receiving box, so that the time for collecting the cut steel bars is saved.

Drawings

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

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a front view of the overall structure of the present utility model;

FIG. 3 is a top view of the overall structure of the present utility model;

FIG. 4 is a schematic diagram of the feeding process of the present utility model;

FIG. 5 is a perspective view showing the structure of the loading guide plate and the mounting base of the present utility model;

fig. 6 is a perspective view showing the structure of the push block of the present utility model.

In the above figures: 1. a bracket; 2. a trough; 21. a bottom plate; 22. a left baffle; 23. a right baffle; 3. a feeding mechanism; 31. a pushing block; 311. rectangular keys; 32. a feeding guide plate; 321. a feeding inclined plane; 322. a discharging inclined plane; 323. a chute; 33. a mounting base; 34. a feeding cylinder; 4. a gear lever; 5. a feed roller; 6. a pushing mechanism; 61. a pushing frame; 62. a pushing cylinder; 63. a pushing tray; 7. a fixed length assembly; 71. a support frame; 72. a baffle; 73. a positioning groove; 8. a cutting mechanism; 81. a cutter; 82. a crank slider mechanism; 83. an inclined frame; 9. a press roll assembly; 91. a connecting frame; 92. a press roller; 93. a spring; 10. a speed reducing motor; 11. a chain; 12. a guide plate; 13. a guide sleeve; 14. a sprocket; 15. a guide groove; 16. a material receiving box; 17. a bearing with a seat; 18. a supporting plate; 19. a support roller; 20. reinforcing steel bars.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described in conjunction with specific embodiments of the present utility model, and it is apparent that the described embodiments 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.

1-6, Including the support 1, its upper end has trough 2, trough 2 slant sets up, facilitate the automatic gliding of the reinforcement under the effect of self gravity, trough 2 is U-shaped groove, is used for keeping in many side by side reinforcement 20, trough 2 includes the bottom plate 21 that slant set up, and left baffle 22 and right baffle 23 connected to both ends about bottom plate 21, and there are openings to hold the movable of the push block 31 on the bottom plate 21, the oblique lower end of trough 2 is the discharge port, the reinforcement 20 is discharged from the discharge port;

In order to enable the single steel bar to be fed, a feeding mechanism 3 is arranged below a discharging opening, the feeding mechanism 3 is provided with a pushing block 31, the pushing block 31 can move back and forth towards the discharging opening, the pushing block 31 is provided with an L-shaped clamping groove, when the discharging opening is discharged, the clamping groove can support the single steel bar, the feeding mechanism 3 further comprises a feeding guide plate 32, a chute 323 is arranged on the feeding guide plate 32, a rectangular key 311 is arranged on one side, close to the feeding guide plate 32, of the pushing block 31, the rectangular key 311 is embedded into the chute 323 and can slide in the chute 323, the pushing block 31 corresponds to an opening of a bottom plate 21 and can move up and down in a direction perpendicular to the bottom surface of the trough 2, the lower part of the feeding guide plate 32 is connected to a bracket 1, one side, close to the trough 2, of the mounting surface of the mounting seat 33 is parallel to the bottom surface of the trough 2, a feeding cylinder 34 is arranged on the mounting seat 33, a cylinder rod of the feeding cylinder 34 is connected with the lower end of the pushing block 31, and the cylinder rod of the feeding cylinder 34 moves up and down in the chute 323 when the cylinder rod of the feeding cylinder 34 stretches;

In order to smoothly discharge the reinforcing steel bars from the trough 2, the feeding guide plate 32 is provided with a feeding inclined plane 321 and a discharging inclined plane 322, the feeding inclined plane 321 is vertical to the bottom plate 21, when the reinforcing steel bars 20 are put into the trough 2, the reinforcing steel bars 20 cannot slide out from the inclined bottom surface of the trough 2, when the push block 31 is driven by the feeding cylinder 34 to move upwards, the feeding inclined plane 321 plays a guiding role on the reinforcing steel bars and guides the reinforcing steel bars to the discharging inclined plane 322, the discharging inclined plane 322 is vertical to the feeding inclined plane 321, when the push block 31 is driven by the feeding cylinder 34 to move upwards to the highest position, the bottom surface of the L-shaped clamping groove of the push block 31 is superposed with the discharging inclined plane 322, at this time, the reinforcing steel bars roll down from the clamping groove of the push block 31 to the discharging inclined plane 322, the upper end of the clamping groove of the push block 31 stops the reinforcing steel bars, when the push block 31 is driven by the feeding cylinder 34 to move downwards, the L-shaped clamping groove of the push block 31 falls below the discharging inclined plane 322, the upper end of the clamping groove of the push block 31 does not stop the reinforcing steel bars, and the upper end of the clamping groove is arranged along the rolling rod 3 and falls into the baffle rod 4 in the direction of the baffle rod 4, and the baffle rod 4 is arranged in front of the baffle rod 4 for rolling down the reinforcing steel bars;

In order to enable the steel bars 20 to be automatically pushed forward, a pushing mechanism 6 is arranged at one end of the receiving groove, the pushing mechanism 6 can push single steel bars in the receiving groove forward, the pushing mechanism 6 comprises a pushing frame 61, the pushing frame 61 is fixed on the support 1, a pushing cylinder 62 is arranged on the pushing frame 61, a pushing disc 63 is arranged on a cylinder rod of the pushing cylinder 62, the pushing disc 63 corresponds to the steel bars falling into the receiving groove and pushes the steel bars forward, a plurality of rotatable supporting rollers 19 and feeding rollers 5 are arranged below the receiving groove in order to reduce friction force of the pushing cylinder 62 for pushing the steel bars forward, and two ends of the supporting rollers 19 and the feeding rollers 5 are fixed on the top surface of the support 1 through belt seat bearings 17;

In order to enable the steel bars to be rapidly and accurately fed into the cutting edge position, two guide plates 12 are arranged at the rear of the feeding roller 5, the two guide plates are arranged in an eight shape, the wide end of each guide plate is a feeding end, the narrow end of each guide plate is a discharging end, a supporting plate 18 is arranged below the two guide plates 12, the discharging ends of the guide plates 12 face the direction of the feeding roller 5, a guide sleeve 13 is arranged in front of the feeding roller 5, and the sleeve opening of the guide sleeve 13 corresponds to the discharging end and can pass through a single steel bar;

In order to ensure that the steel bars can be conveyed forwards by a sufficient friction force, a press roller assembly 9 is arranged between the guide plate 12 and the guide sleeve 13 and comprises a connecting frame 91 hinged with the bracket 1 and a press roller 92 rotationally connected with the connecting frame 91, the press roller 92 is positioned above the feeding roller 5 and further comprises a spring 93 connected with the bracket 1 and the connecting frame 91, the spring 93 generates downward tension on the connecting frame 91, the connecting frame 91 is driven to rotate downwards under the action of the spring force to drive the press roller 92 to press the feeding roller 5 downwards, the press roller 92 and the feeding roller 5 clamp the steel bars 20 pushed by the pushing mechanism 6, so that the stability of the steel bars in the conveying process is ensured, when the feeding roller 5 rotates, the steel bars 20 are conveyed forwards, and in order to ensure that the steel bars can be automatically fed, a speed reducing motor 10 is arranged on the bracket 1, the speed reducing motor 10 is connected with the feeding roller 5 through a chain wheel 14 and a chain 11, and the speed reducing motor 10 can drive the feeding roller 5 to rotate after being started, and the steel bars are automatically conveyed forwards;

A cutting mechanism 8 is arranged in front of the press roller assembly 9 and is provided with a cutter 81 for cutting steel bars, the cutter 81 is driven by a crank sliding block mechanism 82 to do reciprocating linear motion, and once for each reciprocating motion, the cutter 8 is also provided with an inclined frame 83, the included angle between the installation surface of the inclined frame 83 and the steel bars 20 is 30-60 degrees, so that when the cutter 8 cuts the steel bars, the included angle between the cutting edge of the cutter 81 and the steel bars is 30-60 degrees, and the steel bars with the tip is cut;

in order to cut out the steel bars with required length and make the length of the cut steel bars consistent, a fixed length assembly 7 is arranged in front of a discharge hole of the cutting mechanism 8, the fixed length assembly 7 is provided with a baffle 72 for controlling the length of the steel bars, the fixed length assembly further comprises a support frame 71 connected with the cutting mechanism 8, a positioning groove 73 is arranged on the support frame 71 according to the required length of the steel bars, the baffle 72 can move in the positioning groove 73 in a pulling and inserting mode to adjust the interval between the baffle 72 and the cutter 81, the baffle 72 is inserted by selecting the corresponding positioning groove 73 according to the cutting length of the steel bars, and the distance from the cutting edge of the cutter 81 to the baffle 72 is exactly the length of the steel bars to be cut at the moment;

In order to enable the cut steel bars to be convenient to collect, a guide groove 15 is further arranged on the cutting mechanism, the guide groove 15 is obliquely arranged and used for guiding the cut steel bars, a material receiving box 16 is arranged below the guide groove 15, and the cut steel bars automatically slide into the material receiving box 16 along the guide groove 15, so that the time for collecting a large amount of cut steel bars is saved, and the efficiency is improved.

The working process comprises the following steps:

during operation, the gear motor 10 and the cutting mechanism 8 are started first, then a plurality of steel bars are manually arranged in the trough 2 at one time, at the moment, the steel bars are blocked by the feeding inclined surface 321 of the feeding guide plate 32, the steel bars cannot slide out from the inclined bottom plate 21 of the trough 2, and at the moment, the bottom surface of the L-shaped clamping groove of the push block 31 is flush with the bottom plate 21. When feeding is required, the cylinder rod of the feeding cylinder 34 extends out, the cylinder rod drives the push block 31 to move upwards, the clamping groove of the push block 31 extends into the bottom plate 21 to be equal to the diameter of the steel bar, so that only one steel bar 20 is driven by the clamping groove of the push block 31 to move upwards along the feeding inclined plane 321 of the feeding guide plate 32, when the cylinder rod of the feeding cylinder 34 extends out completely, the bottom surface of the L-shaped clamping groove of the push block 31 coincides with the discharging inclined plane 322, the steel bar rolls off the clamping groove of the push block 31 onto the discharging inclined plane 322 at the moment, the upper end of the clamping groove of the push block 31 blocks the steel bar, the steel bar is suspended on the discharging inclined plane 322, the cylinder rod of the feeding cylinder 34 is retracted, the cylinder rod drives the push block 31 to move downwards, when the L-shaped clamping groove of the push block 31 moves downwards to be completely under the discharging inclined plane 322, the upper end of the clamping groove of the push block 31 can not block the steel bar any more, and the steel bar automatically rolls down along the discharging inclined plane 322 into the receiving groove. At the moment, the cylinder rod of the pushing cylinder 52 of the pushing mechanism 5 arranged at one end of the receiving groove extends out, and drives the pushing disc 53 to move forwards, so that the steel bars in the receiving groove are pushed forwards to enter the gap between the feeding roller 5 and the compression roller 92;

at this time, the reinforcing bars 20 are automatically fed forward by the engagement force of the feed roller 5 and the pressing roller 92 rotating in opposite directions. When the steel bar touches the baffle plate 72 after passing through the cutter 81, the steel bar is blocked by the baffle plate 72, and at the moment, the forward pushing force of the feeding roller 5 and the pressing roller 92 to the steel bar is continuously maintained, so that the steel bar is reliably propped against the baffle plate 72, and the accuracy of cutting size is ensured. At this time, the cutting edge of the cutter 81 cuts the steel bar, the cut steel bar falls into the guide chute 15, and automatically slides into the receiving box 16 along the guide chute 15. Since the steel bar automatically falls after being cut, a gap is formed between the blade of the cutter 81 and the baffle 72, the subsequent steel bar is rapidly conveyed to the baffle 72 again under the action of the conveying force of the feed roller 5 and the press roller 92, at this time, the blade of the cutter 81 cuts the steel bar again, the cut steel bar falls into the guide groove 15, automatically slides into the material receiving box 16 along the guide groove 15, and the cutting action is repeated until the whole steel bar is cut. When the whole steel bar is cut, the cylinder rod of the feeding cylinder 34 is extended and retracted once again, one steel bar is fed to the receiving groove again, and then the actions of pushing the material pushing cylinder 52 forwards, conveying the material feeding roller 5 and the pressing roller 92 forwards, fixing the length of the baffle 72 and cutting the cutter 81 are repeated until the whole steel bar is cut.

When the equipment is applied to production, a plurality of reinforcing steel bars can be put into the trough at one time, so that the material taking times are reduced, and the material loading time is saved; the pushing block of the feeding mechanism is driven by the feeding cylinder, and one steel bar is fed after each expansion and contraction, so that the automation degree is high; the pushing cylinder of the pushing mechanism automatically pushes the steel bars forwards, so that the speed is high and the efficiency is high; the steel bars are conveyed by the feeding rollers, and the pressing rollers are pressed down, so that the stability of the steel bars in the conveying process is ensured; under the guidance of the guide plate, the steel bars enter the guide sleeve, so that the accurate trend of the steel bars is ensured; the length of the steel bar is consistent under the fixed-length limit of the baffle, and the steel bar is cut into the steel bar with the tip at the end part by the cutting mechanism, so that the processing speed is improved, the time is saved, the length of the steel bar is consistent, the precision is high, the working procedures are shortened, and the efficiency is improved; the cut steel bars automatically slide into the material receiving box, so that the time for collecting the cut steel bars is saved.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (10)

1. A reinforcing bar cutting machine for reinforcing bar anchor assembly, its characterized in that: comprising

The upper end of the bracket is provided with a trough, the trough is obliquely arranged, and the oblique lower end of the trough is provided with a discharge opening;

A feeding mechanism is arranged below the discharge opening, the feeding mechanism is provided with a push block, the push block can reciprocate towards the direction of the discharge opening, the push block is provided with an L-shaped clamping groove, and the clamping groove can support a single steel bar when the discharge opening discharges;

a baffle rod is arranged in front of the pushing direction of the pushing block, and a receiving groove is formed between the baffle rod and the feeding mechanism;

A plurality of rotatable feeding rollers are arranged on the bracket below the receiving groove;

The material pushing mechanism is arranged at one end of the material receiving groove and can push the single steel bars in the material receiving groove forwards;

A fixed length assembly is arranged in front of the other end of the receiving groove and is provided with a baffle for controlling the length of the reinforcing steel bars;

A cutting mechanism is arranged between the baffle plate and the feeding roller and is provided with a cutter for cutting the reinforcing steel bars, and when the reinforcing steel bars are cut, the included angle between the cutting edge of the cutter and the reinforcing steel bars is 30-60 degrees.

2. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 1, wherein:

The trough is a U-shaped trough and comprises a bottom plate which is obliquely arranged and side baffles which are connected with the left end and the right end of the bottom plate, and an opening for accommodating the pushing block to move is formed in the bottom plate;

The feeding mechanism further comprises a feeding guide plate, a sliding groove is formed in the feeding guide plate, a pushing block is connected with the sliding groove in a sliding mode, and a telescopic rod is connected with the pushing block.

3. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 2, wherein: the feeding guide plate is provided with a feeding inclined plane and a discharging inclined plane, the feeding inclined plane is perpendicular to the bottom plate, the steel bar is guided to the discharging inclined plane when the pushing block stretches out of feeding, the discharging inclined plane is perpendicular to the feeding inclined plane, and the steel bar is guided into the receiving groove when the pushing block retracts to discharge.

4. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 2, wherein: the push block is provided with a rectangular key on one side close to the feeding guide plate, the rectangular key is embedded into the chute and can slide in the chute, the push block corresponds to the opening of the bottom plate and can move up and down in the direction perpendicular to the bottom surface of the chute.

5. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 1, wherein: the pushing mechanism comprises a pushing frame, the pushing frame is fixed on the support, a pushing cylinder is arranged on the pushing frame, and the pushing cylinder corresponds to the steel bars falling into the receiving groove.

6. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 1, wherein: the feeding roller comprises a feeding roller, a pressing roller assembly, a spring and a connecting frame, wherein the feeding roller is hinged with the feeding roller, the pressing roller is rotatably connected with the connecting frame, the feeding roller is arranged above the feeding roller, and the spring is connected with the feeding roller and the connecting frame.

7. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 1, wherein: two guide plates are arranged at the rear of the feeding roller, the two guide plates are arranged in an eight shape, the wide end of each guide plate is a feeding end, the narrow end of each guide plate is a discharging end, and supporting plates are arranged below the two guide plates.

8. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 1, wherein: the discharge end of the guide plate faces to the intersection position of the feeding roller and the compression roller, a guide sleeve is arranged in front of the feeding roller, and a sleeve opening of the guide sleeve corresponds to the discharge end and can pass through a single steel bar.

9. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 1, wherein: the fixed length assembly further comprises a support frame connected with the cutting mechanism, and the baffle is detachably connected to the support frame and can move on the support frame to adjust the distance between the baffle and the cutter.

10. A reinforcing bar cutting machine for reinforcing bar anchors as set forth in claim 1, wherein: the cutting mechanism is provided with a guide groove, the guide groove is obliquely arranged and used for guiding the cut steel bars, a material receiving box is arranged below the guide groove, and the cut steel bars automatically slide into the material receiving box along the guide groove.