CN112296836A

CN112296836A - Steel bar rust removal device

Info

Publication number: CN112296836A
Application number: CN202011160772.3A
Authority: CN
Inventors: 李万奎
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2021-02-02

Abstract

The invention discloses a steel bar rust removing device, which comprises a frame, a positioning support component, a surrounding control component, a rotary rust removing component, an extrusion adjusting component and a clamping conveying component, wherein the frame is provided with a positioning support part and a surrounding control part; there is the location supporting seat in the frame, has the location supporting roller on the location supporting seat, and location supporting roller supports the reinforcing bar, utilizes to encircle the control unit and makes the location supporting unit support the reinforcing bar centre gripping, makes the rotary drum rotate through the meshing of the teeth of a cogwheel, and the reinforcing bar passes rust cleaning frame, has the rust cleaning steel wire to rust cleaning to the reinforcing bar on the rust cleaning frame, carries out the centre gripping through extrusion adjusting part, centre gripping conveying part with the reinforcing bar and carries, makes the reinforcing bar accomplish continuous rust cleaning. The invention has novel structure and can efficiently finish the derusting operation of the reinforcing steel bar.

Description

Steel bar rust removal device

Technical Field

The invention relates to the technical field related to steel bar rust removal, in particular to a steel bar rust removal device.

Background

The steel bar rust removal refers to the cleaning of oil stains, paint stains, floating skin (commonly called old rust) and iron rust which can be peeled off when being knocked by a hammer before use. Before welding, the scale at the welding point should be removed. Derusting of steel bars can generally be accomplished by two ways: firstly, rust removal is carried out in the steel bar cold drawing or steel wire straightening process, and the rust removal of a large amount of steel bars is more economical and labor-saving; secondly, rust removal is carried out by a mechanical method, if an electric rust remover is adopted for rust removal, local rust removal on the steel bars is more convenient, integral rust removal on the steel bars is insufficient, labor intensity is high, and a steel bar rust removal device is needed urgently for removing iron rust on the steel bars quickly and efficiently.

Disclosure of Invention

Aiming at the technical problems, the invention provides a steel bar rust removal device which can be used for rapidly and efficiently finishing steel bar rust removal operation and reducing the labor intensity of workers.

The technical scheme adopted by the invention is as follows: a steel bar derusting device comprises a frame, a positioning support component, a surrounding control component, a rotary derusting component, an extrusion adjusting component and a clamping conveying component;

the rack comprises a positioning support seat;

the positioning support component comprises a first sliding block connecting rod and a second sliding block connecting rod;

the surrounding control component comprises a connecting bent pipe;

the rotary derusting component comprises a derusting frame guide post;

the extrusion adjusting component comprises a coupler;

the clamping and conveying component comprises a conveying sliding seat guide post;

the positioning support seat is fixedly installed on the rack, the installation outer barrel is fixedly connected with the rack, two ends of a first sliding block connecting rod are respectively and rotatably connected with a first contact sliding block and a first support plate, two ends of a second sliding block connecting rod are respectively and rotatably connected with a second support plate and a second contact sliding block, two ends of a connecting bent pipe are respectively and fixedly connected with a second contact extrusion moving block and a first contact extrusion moving block, a guide pillar of the derusting frame is fixedly connected with the rotary drum, two ends of a coupler are respectively and fixedly connected with one ends of a first extrusion screw rod and a second extrusion screw rod, and two ends of a guide pillar of the conveying sliding seat are respectively and fixedly connected with.

Furthermore, the rack also comprises an installation outer cylinder and a positioning support roller; the mounting outer cylinder is fixedly connected with the rack, and the positioning support roller is rotatably mounted on the positioning support seat.

Furthermore, the positioning support component also comprises a contact slide block I, a slide block guide post I, a support plate guide post, a support plate I, a support plate pressure spring, a support roller, a support plate II, a slide block guide post II, a contact slide block II and a contact slide block roller; the outer barrel is fixedly connected with the mounting outer barrel, two ends of the support plate guide column are fixedly connected with the first slider guide column and the second slider guide column respectively, a contact slider roller is arranged on the first contact slider and the rack, the first contact slider and the second contact slider are slidably connected with the first slider guide column and the second slider guide column respectively, the first support plate and the second support plate are slidably connected with the support plate guide column respectively, the support plate pressure spring is sleeved on the support plate guide column, two ends of the support plate pressure spring are in contact with the first support plate and the second support plate respectively, and the support rollers are rotatably mounted on the first support plate and the second support plate.

Furthermore, the surrounding control component also comprises a surrounding control motor, a meshing rod gear, a meshing rod, a first contact extrusion motion block, a motion block ball, a second contact extrusion motion block and meshing teeth; the meshing rod gear encircle control motor fixed connection, encircle control motor fixed mounting on the installation urceolus, there is the meshing tooth on the meshing rod, meshing tooth and meshing rod gear meshing, the one end of contact extrusion motion piece one, contact extrusion motion piece two respectively with the both ends fixed connection of meshing rod, there is the motion piece ball on contact extrusion motion piece one, the contact extrusion motion piece two, the motion piece ball with install the urceolus contact and at the rolling of installation urceolus outer wall.

Furthermore, the first contact extrusion motion block and the second contact extrusion motion block are provided with motion block balls, the motion block balls are in contact with the mounting outer cylinder and roll on the outer wall of the mounting outer cylinder, and the first contact extrusion motion block and the second contact extrusion motion block are in contact extrusion relation with contact slide block rollers on the first contact slide block and the second contact slide block respectively.

Furthermore, the rotary rust removing component also comprises a rotary drum ball, a rotary drum, a rust removing driving motor, a connecting gear, a meshing rotary plate, a rotary plate meshing tooth, a rust removing frame screw rod, a rust removing frame and a screw rod motor; the rotary drum is provided with a rotary drum ball, the rotary drum ball is in contact with the inner wall of the installation outer drum and rolls on the inner wall of the installation outer drum, the connecting gear is fixedly connected with the derusting driving motor, the derusting driving motor is fixedly installed on the installation outer drum, the meshing rotating plate is provided with rotating plate meshing teeth, the rotating plate meshing teeth are meshed with the connecting gear, the meshing rotating plate is fixedly connected with one end of the rotary drum, the derusting frame is in sliding connection with a derusting frame guide pillar, the derusting frame lead screw is rotatably installed on the rotary drum, the lead screw motor is fixedly connected with one end of the derusting frame lead screw, the lead screw motor is fixedly installed on the meshing rotating plate, and the derusting frame lead screw.

Furthermore, the steel bar penetrates through a derusting frame, and a derusting steel wire is arranged on the derusting frame.

Furthermore, the extrusion adjusting component also comprises an extrusion screw motor, a contact extrusion block guide post, an extrusion screw I, a contact extrusion block II and an extrusion screw II; the contact extrusion block guide pillar is fixedly connected with the positioning support seat, the contact extrusion block I and the contact extrusion block II are respectively in sliding connection with the contact extrusion block guide pillar, the extrusion screw rod I and the extrusion screw rod II are respectively and rotatably installed on the positioning support seat, the extrusion screw rod motor is fixedly connected with one end of the extrusion screw rod I, and the contact extrusion block I and the contact extrusion block II are respectively connected with the extrusion screw rod I and the extrusion screw rod II through screw pairs.

Furthermore, the clamping and conveying component also comprises a first conveying clamping plate, a roller of the conveying clamping plate, a conveying sliding seat, a guide pillar of the conveying clamping plate, a pressure spring of the clamping plate, a conveying motor, a conveying screw rod and a surrounding control component 09; the conveying clamping plate guide column is fixedly installed on the conveying sliding seat, the conveying sliding seat is connected with the conveying sliding seat guide column in a sliding mode, a first conveying clamping plate and a second conveying clamping plate are respectively connected with the conveying clamping plate guide column in a sliding mode, a clamping plate pressure spring is sleeved on the conveying clamping plate guide column, two ends of the clamping plate pressure spring are respectively in contact with the first conveying clamping plate and the second conveying clamping plate, conveying clamping plate rollers are arranged on the first conveying clamping plate and the second conveying clamping plate, the conveying clamping plate rollers are in contact extrusion relation with a first contact extrusion block and a second contact extrusion block, two ends of the conveying lead screw are respectively in rotary connection with a positioning supporting seat and a rack, and a conveying motor is fixedly connected with one end of the conveying lead screw.

Compared with the prior art, the invention has the beneficial effects that: (1) derusting the steel bars by rotating the steel wires; (2) the clamping conveying component conveys the steel bars in a clamping mode to complete continuous rust removal; (3) the pressing adjustment component controls the conveying of the clamping conveying component.

Drawings

Fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6 are schematic diagrams of the overall structure of the present invention.

In the figure: 1-a frame; 2-positioning the support member; 3-surround control means; 4-rotating the rust removing component; 5-extruding the adjusting component; 6-clamping the conveying component; 101-installing an outer cylinder; 102-positioning support rollers; 103-positioning a supporting seat; 201-contact slide block one; 202-a first slider guide post; 203-supporting plate guide posts; 204-a first slider connecting rod; 205-support plate one; 206-supporting plate compression spring; 207-support rollers; 208-support plate two; 209-a second slider connecting rod; 210-a second slider guide post; 211-contact slider two; 212-contact slider roller; 301-surround control motor; 302-meshing lever gears; 303-an engagement rod; 304-contacting the first motion block; 305-motion block ball; 306-connecting a curved tube; 307-contact extrusion motion block two; 308-meshing teeth; 401-bowl balls; 402-a rotating drum; 403-derusting the driving motor; 404-connecting gear; 405-engaging the rotating plate; 406-rotating plate engaging teeth; 407-derusting frame screw rod; 408-a derusting frame; 409-a screw motor; 410-derusting frame guide post; 501-extruding a screw motor; 502-contact extrusion block guide post; 503-extruding a first screw rod; 504-contact extrusion block one; 505-a coupling; 506-contacting the second extrusion block; 507-extruding a second screw rod; 601-conveying the first clamping plate; 602-transport gripper plate rollers; 603-a conveying slide; 604-transporting clamping plate guide posts; 605-clamping plate compression springs; 606-a transport motor; 607-conveying screw rod; 608-transport slide guide posts; 609-conveying the second clamping plate.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): as shown in fig. 1, 2, 3, 4, 5, and 6: a steel bar derusting device comprises a frame 1, a positioning support part 2, a surrounding control part 3, a rotary derusting part 4, an extrusion adjusting part 5 and a clamping conveying part 6.

The rack 1 comprises a positioning support seat 103; the positioning support part 2 comprises a first slide block connecting rod 204 and a second slide block connecting rod 209; a surrounding control part 3 including a connecting bent pipe 306; the rotary derusting part 4 comprises a derusting frame guide post 410; a compression adjustment member 5 including a coupling 505; the gripping and conveying means 6 comprise a conveying slide guide column 608.

The positioning support base 103 is fixedly mounted on the rack 1, the mounting outer barrel 101 is fixedly connected with the rack 1, two ends of a first slider connecting rod 204 are respectively and rotatably connected with a first contact slider 201 and a first support plate 205, two ends of a second slider connecting rod 209 are respectively and rotatably connected with a second support plate 208 and a second contact slider 211, two ends of a connecting curved pipe 306 are respectively and fixedly connected with a second contact extrusion motion block 307 and a first contact extrusion motion block 304, a derusting frame guide pillar 410 is fixedly connected with the rotary drum 402, two ends of a coupler 505 are respectively and fixedly connected with one end of a first extrusion screw rod 503 and one end of a second extrusion screw rod 507, and two ends of a conveying slide guide pillar 608 are respectively and fixedly connected with the positioning support base 103 and.

The rack 1 further comprises an installation outer cylinder 101 and a positioning support roller 102; the mounting outer cylinder 101 is fixedly connected with the frame 1, and the positioning support roller 102 is rotatably mounted on the positioning support base 103.

The positioning support component 2 further comprises a first contact slide block 201, a first slide block guide post 202, a support plate guide post 203, a first support plate 205, a support plate compression spring 206, a support roller 207, a second support plate 208, a second slide block guide post 210, a second contact slide block 211 and a contact slide block roller 212; the second slider guide post 210 and the first slider guide post 202 are respectively and fixedly connected with the mounting outer cylinder 101, two ends of the support plate guide post 203 are respectively and fixedly connected with the first slider guide post 202 and the second slider guide post 210, the first contact slider 201 and the frame 1 of the machine frame 1 are provided with contact slider rollers 212, the first contact slider 201 and the second contact slider 211 are respectively and slidably connected with the first slider guide post 202 and the second slider guide post 210, the first support plate 205 and the second support plate 208 are respectively and slidably connected with the support plate guide post 203, a support plate pressure spring 206 is sleeved on the support plate guide post 203, two ends of the support plate pressure spring 206 are respectively and slidably connected with the first support plate 205 and the second support plate 208, and the support rollers 207 are. The first contact sliding block 201 and the second contact sliding block 211 move, and under the action of the first sliding block connecting rod 204 and the second sliding block connecting rod 209, the first support plate 205 and the second support plate 208 move to clamp and support the steel bar.

The surrounding control part 3 further comprises a surrounding control motor 301, a meshing rod gear 302, a meshing rod 303, a first contact pressing motion block 304, a motion block ball 305, a second contact pressing motion block 307 and meshing teeth 308; the encircling control motor 301 of the meshing rod gear 302 is fixedly connected, the encircling control motor 301 is fixedly installed on the installation outer cylinder 101, the meshing rod 303 is provided with meshing teeth 308, the meshing teeth 308 are meshed with the meshing rod gear 302, one ends of the first contact extrusion motion block 304 and the second contact extrusion motion block 307 are respectively and fixedly connected with two ends of the meshing rod 303, the first contact extrusion motion block 304 and the second contact extrusion motion block 307 are provided with motion block balls 305, and the motion block balls 305 are in contact with the installation outer cylinder 101 and roll on the outer wall of the installation outer cylinder 101. The engaging rod gear 302 is controlled to rotate around the control motor 301, and the engaging rod 303 moves under the meshing of the gear teeth.

The first contact pressing motion block 304 and the second contact pressing motion block 307 are provided with motion block balls 305, the motion block balls 305 are in contact with the mounting outer cylinder 101 and roll on the outer wall of the mounting outer cylinder 101, and the first contact pressing motion block 304 and the second contact pressing motion block 307 are in contact pressing relation with contact slider rollers 212 on the first contact slider 201 and the second contact slider 211 respectively. The contact slider rollers 212 move the contact sliders one 201 and two 211 by the pressing action of the contact pressing motion blocks one 304 and two 307.

The rotary rust removal component 4 also comprises a rotary drum ball 401, a rotary drum 402, a rust removal driving motor 403, a connecting gear 404, a meshing rotary plate 405, a rotary plate meshing tooth 406, a rust removal frame screw 407, a rust removal frame 408 and a screw motor 409; the rotary drum 402 is provided with a rotary drum ball 401, the rotary drum ball 401 is in contact with the inner wall of the installation outer drum 101 and rolls on the inner wall of the installation outer drum 101, a connecting gear 404 is fixedly connected with a derusting driving motor 403, the derusting driving motor 403 is fixedly installed on the installation outer drum 101, a rotary plate meshing tooth 406 is arranged on a meshing rotary plate 405, the rotary plate meshing tooth 406 is meshed with the connecting gear 404, the meshing rotary plate 405 is fixedly connected with one end of the rotary drum 402, a derusting frame 408 is slidably connected with a derusting frame guide post 410, a derusting frame lead screw 407 is rotatably installed on the rotary drum 402, a lead screw motor 409 is fixedly connected with one end of a derusting frame lead screw 407, the lead screw motor 409 is fixedly installed on the meshing rotary plate 405, and the der. The rust removal driving motor 403 controls the connecting gear 404 to rotate, the meshing rotating plate 405 rotates under the meshing of gear teeth, the rust removal frame 408 rotates, a steel wire on the rust removal frame 408 performs rust removal operation on the circumference of a steel bar, and the lead screw motor 409 controls the lead screw 407 of the rust removal frame to rotate, so that the rust removal frame 408 moves, the movable rust removal is performed, and the rust removal efficiency is higher.

The steel bar passes through the derusting frame 408, and a derusting steel wire is arranged on the derusting frame 408. The rust removing frame 408 rotates, and then the steel wire rotates to remove rust on the circumference of the steel bar.

The extrusion adjusting component 5 further comprises an extrusion screw motor 501, a contact extrusion block guide post 502, a first extrusion screw 503, a first contact extrusion block 504, a second contact extrusion block 506 and a second extrusion screw 507; the contact extrusion block guide post 502 is fixedly connected with the positioning support base 103, the contact extrusion block I504 and the contact extrusion block II 506 are respectively in sliding connection with the contact extrusion block guide post 502, the extrusion screw rod I503 and the extrusion screw rod II 507 are respectively rotatably installed on the positioning support base 103, the extrusion screw rod motor 501 is fixedly connected with one end of the extrusion screw rod I503, and the contact extrusion block I504 and the contact extrusion block II 506 are respectively connected with the extrusion screw rod I503 and the extrusion screw rod II 507 through screw pairs. 501 controls the rotation of the pressing block 503, and further the first contact pressing block 504 and the second contact pressing block 506 move, and the first conveying clamping plate 601 and the second conveying clamping plate 609 are separated under the counter force of the clamping plate compression spring 605 and return to the initial positions for conveying again.

The clamping and conveying component 6 further comprises a first conveying clamping plate 601, a roller 602 of the conveying clamping plate, a conveying sliding seat 603, a guide pillar 604 of the conveying clamping plate, a pressure spring 605 of the clamping plate, a conveying motor 606, a conveying screw 607 and a surrounding control component 309; the conveying clamping plate guide post 604 is fixedly arranged on the conveying sliding base 603, the conveying sliding base 603 is in sliding connection with the conveying sliding base guide post 608, a first conveying clamping plate 601 and a second conveying clamping plate 609 are in sliding connection with the conveying clamping plate guide post 604 respectively, a clamping plate pressure spring 605 is sleeved on the conveying clamping plate guide post 604, two ends of the clamping plate pressure spring 605 are in contact with the first conveying clamping plate 601 and the second conveying clamping plate 609 respectively, conveying clamping plate rollers 602 are arranged on the first conveying clamping plate 601 and the second conveying clamping plate 609, the conveying clamping plate rollers 602 are in contact extrusion relation with a first contact extrusion block 504 and a second contact extrusion block 506, two ends of a conveying screw 607 are in rotary connection with the positioning support base 103 and the machine frame 1 respectively, and a conveying motor 606 is fixedly connected with one end of the conveying screw 607. The conveying motor 606 controls the conveying screw 607 to rotate, the conveying sliding seat 603 moves, and the conveying clamping plate roller 602 moves 601 and 609 and clamps the reinforcing steel bar under the extrusion action of 504 and 506, so that the reinforcing steel bar conveying is realized.

The working principle of the invention is as follows: the meshing rod gear 302 is controlled to rotate by surrounding a control motor 301, the meshing rod 303 moves under the meshing of gear teeth, a contact sliding block roller 212 enables a contact sliding block I201 and a contact sliding block II 211 to move under the extrusion action of a contact extrusion motion block I304 and a contact extrusion motion block II 307, a support plate I205 and a support plate II 208 move under the action of a sliding block connecting rod I204 and a sliding block connecting rod II 209 to clamp and support steel bars, a derusting driving motor 403 controls a connecting gear 404 to rotate, a meshing rotating plate 405 rotates under the meshing of the gear teeth, a derusting frame 408 rotates, steel wires on the derusting frame 408 carry out derusting operation on the circumference of the steel bars, a lead screw motor 409 controls a derusting frame lead screw 407 to rotate to enable the derusting frame 408 to move and carry out movable type derusting, the derusting efficiency is higher, a conveying motor 606 controls a conveying lead screw 607 to rotate, a conveying sliding, 506, the steel bars are clamped and moved by the pressing action of the clamping plate pressing spring 605, the steel bars are conveyed, the rotating of the clamp plate is controlled by 501, the first contact pressing block 504 and the second contact pressing block 506 move, and the first conveying clamping plate 601 and the second conveying clamping plate 609 are separated under the counter force of the clamping plate pressing spring 605 and return to the initial positions for conveying again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A steel bar rust removal device comprises a frame (1), a positioning support component (2), a surrounding control component (3), a rotary rust removal component (4), an extrusion adjustment component (5) and a clamping conveying component (6);

the rack (1) comprises a positioning support seat (103);

the positioning support component (2) comprises a first sliding block connecting rod (04) and a second sliding block connecting rod (209);

the surrounding control component (3) comprises a connecting bent pipe 306;

the rotary derusting component (4) comprises a derusting frame guide post (410);

the pressing adjustment component (5) comprises a coupler (505);

the clamping and conveying component (6) comprises a conveying slide guide post (608);

the positioning support seat (103) is fixedly installed on the rack (1), the outer installation barrel (101) is fixedly connected with the rack (1), two ends of a first slider connecting rod (24) are respectively and rotatably connected with a first contact slider (201) and a first support plate (205), two ends of a second slider connecting rod (209) are respectively and rotatably connected with a second support plate (208) and a second contact slider (211), two ends of a connecting bent pipe (306) are respectively and fixedly connected with a second contact extrusion motion block (307) and a first contact extrusion motion block (304), a guide pillar (410) of the derusting frame is fixedly connected with a rotary drum (402), two ends of a coupler (505) are respectively and fixedly connected with a first extrusion screw rod (503) and one end of a second extrusion screw rod (507), and two ends of a guide pillar (608) of a conveying slide seat are respectively and fixedly connected with the positioning support seat (103) and the.

2. A rust removing device for reinforcing steel bars as claimed in claim 1, characterized in that: the rack (1) also comprises an installation outer cylinder (101) and a positioning support roller (102); the mounting outer cylinder (101) is fixedly connected with the rack (1), and the positioning support roller (102) is rotatably mounted on the positioning support seat (103).

3. The steel bar rust removing device according to claim 1, wherein the positioning support part (2) further comprises a first contact slide block (201), a first slide block guide post (202), a first support plate guide post (203), a first support plate (205), a support plate compression spring (206), a support roller (207), a second support plate (208), a second slide block guide post (210), a second contact slide block (211) and a second contact slide block roller (212); the second slider guide post (210) and the first slider guide post (202) are respectively and fixedly connected with the mounting outer cylinder (101), two ends of the support plate guide post (203) are respectively and fixedly connected with the first slider guide post (202) and the second slider guide post (210), the first contact slider (201) and the rack (1) of the rack (1) are provided with contact slider rollers (212), the first contact slider (201) and the second contact slider (211) are respectively and slidably connected with the first slider guide post (202) and the second slider guide post (210), the supporting plate I (205) and the supporting plate II (208) are respectively in sliding connection with the supporting plate guide post (203), the supporting plate pressure spring (206) is sleeved on the supporting plate guide post (203), two ends of the supporting plate pressure spring (206) are respectively in contact with the supporting plate I (205) and the supporting plate II (208), and the supporting roller (207) is rotatably installed on the supporting plate I (205) and the supporting plate II (208).

4. The steel bar rust removing device according to claim 1, wherein the surrounding control part (3) further comprises a surrounding control motor (301), a meshing rod gear (302), a meshing rod (303), a first contact extrusion motion block (304), a motion block ball (305), a second contact extrusion motion block (307), and meshing teeth (308); the utility model discloses a meshing pole gear (302) around control motor (301) fixed connection, around control motor (301) fixed mounting on installation urceolus (101), have meshing tooth (308) on meshing pole (303), meshing tooth (308) and meshing pole gear (302) meshing, the one end of contact extrusion motion piece (304), contact extrusion motion piece two (307) respectively with the both ends fixed connection of meshing pole (303), there are motion piece ball (305) on contact extrusion motion piece (304), the contact extrusion motion piece two (307), motion piece ball (305) with installation urceolus (101) contact and at installation urceolus (101) outer wall roll.

5. The steel bar rust removing device according to claim 1, wherein the first contact extrusion motion block (304) and the second contact extrusion motion block (307) are provided with motion block balls (305), the motion block balls (305) are in contact with the mounting outer cylinder (101) and roll on the outer wall of the mounting outer cylinder (101), and the first contact extrusion motion block (304) and the second contact extrusion motion block (307) are in contact extrusion relation with contact slide block rollers (212) on the first contact slide block (201) and the second contact slide block (211) respectively.

6. The steel bar rust removing device according to claim 1, wherein the rotary rust removing component (4) further comprises a rotary drum ball (401), a rotary drum (402), a rust removing driving motor (403), a connecting gear (404), a meshing rotary plate (405), a rotary plate meshing tooth (406), a rust removing frame screw (407), a rust removing frame (408) and a screw motor (409); the drum (402) is provided with drum balls (401), the drum balls (401) are contacted with the inner wall of the installation outer cylinder (101) and roll on the inner wall of the installation outer cylinder (101), the connecting gear (404) is fixedly connected with the derusting driving motor (403), the derusting driving motor (403) is fixedly arranged on the mounting outer cylinder (101), the engaging rotating plate (405) is provided with rotating plate engaging teeth (406), the rotating plate engaging teeth (406) are engaged with the connecting gear (404), the engaging rotating plate (405) is fixedly connected with one end of the rotating cylinder (402), the rust removing frame (408) is connected with a rust removing frame guide post (410) in a sliding mode, a rust removing frame screw rod (407) is rotatably installed on the rotary drum (402), a screw rod motor (409) is fixedly connected with one end of the rust removing frame screw rod (407), the screw rod motor (409) is fixedly installed on the meshing rotary plate (405), and the rust removing frame screw rod (407) is connected with the rust removing frame (408) through a screw pair.

7. A steel bar de-rusting device according to claim 1, wherein the steel bars pass through a de-rusting frame (408), and a de-rusting steel wire is arranged on the de-rusting frame (408).

8. The steel bar rust removing device according to claim 1, wherein the extrusion adjusting component (5) further comprises an extrusion screw motor (501), a contact extrusion block guide post (502), an extrusion screw rod I (503), a contact extrusion block I (504), a contact extrusion block II (506) and an extrusion screw rod II (507); the contact extrusion block guide post (502) is fixedly connected with the positioning support base (103), the contact extrusion block I (504) and the contact extrusion block II (506) are respectively in sliding connection with the contact extrusion block guide post (502), the extrusion screw rod I (503) and the extrusion screw rod II (57) are respectively and rotatably installed on the positioning support base (103), the extrusion screw rod motor (501) is fixedly connected with one end of the extrusion screw rod I (503), and the contact extrusion block I (504) and the contact extrusion block II (506) are respectively connected with the extrusion screw rod I (503) and the extrusion screw rod II (507) through screw pairs.

9. The steel bar derusting device according to claim 1, wherein the clamping and conveying component (6) further comprises a first conveying clamping plate (601), a first conveying clamping plate roller (602), a conveying sliding seat (603), a first conveying clamping plate guide post (604), a clamping plate pressure spring (605), a conveying motor (606), a conveying screw rod (607), and a surrounding control component (3) 09; the conveying clamping plate guide post (604) is fixedly arranged on a conveying sliding base (603), the conveying sliding base (603) is connected with the conveying sliding base guide post (608) in a sliding manner, a first conveying clamping plate (601) and a second conveying clamping plate (609) are respectively connected with the conveying clamping plate guide post (604) in a sliding manner, a clamping plate pressure spring (605) is sleeved on the conveying clamping plate guide post (604), two ends of the clamping plate pressure spring (605) are respectively contacted with the first conveying clamping plate (601) and the second conveying clamping plate (609), conveying clamping plate rollers (602) are arranged on the first conveying clamping plate (601) and the second conveying clamping plate (609), and the conveying clamping plate rollers (602) are in contact extrusion relation with the first contact extrusion block (504) and the second contact extrusion block (506), two ends of the conveying screw rod (607) are respectively and rotatably connected with the positioning support seat (103) and the rack (1), and the conveying motor (606) is fixedly connected with one end of the conveying screw rod (607).