CN113020352A - Light steel keel ceiling processing system and method - Google Patents

Abstract

The invention provides a light steel keel ceiling processing system and a method, wherein the light steel keel ceiling processing system comprises a containing plate, a baffle plate and a bending block I, the baffle plate is arranged on the containing plate, and the bending block I is fixedly connected on the containing plate. The method comprises the following steps: placing the iron bars on the containing plate and penetrating through the baffle plate to pound the iron bars; step two: gradually bending the iron bars by the two bending plates; step three: in the bending process, the smashing block smashes the iron bar, so that the bending position of the iron bar approaches to a right angle, and at the moment, the double-shaft motor is started to rotate, so that the two bending plates are matched with the smashing block to be processed into an upper rod embryonic form; step four: the rack is driven to move intermittently through the gear I, and the rack is automatically conveyed under the action of the dragging block and the baffle plate.

Description

Light steel keel ceiling processing system and method

Technical Field

The invention relates to the technical field of keel processing, in particular to a system and a method for processing a light steel keel ceiling.

Background

The existing patent numbers are: CN 201820571459.0A hydraulic briquetting machine for keel processing, the utility model relates to the technical field of keel processing, and discloses a hydraulic briquetting machine for keel processing, comprising a workbench, wherein an adjusting box is fixedly arranged on the lower surface of the workbench, a driving motor is fixedly arranged on the inner wall of the left side of the adjusting box, the output shaft of the driving motor is fixedly connected with a first rotating shaft, a first slide block is sleeved on the surface of the first rotating shaft in a movable manner, a connecting block is fixedly connected with the right side surface of the first rotating shaft, the hydraulic briquetting machine for keel processing is provided, through arranging the driving motor, the first slide block, the second slide block and the movable plates, two movable plates can be driven by the driving motor to simultaneously carry out the separation or the opposite movement, so that the briquetting machine is suitable for keel processing of different specifications, the purpose that the briquetting machine can compress keels of different specifications is achieved, thereby improving the practicability, the problem of can not adapt to the fossil fragments processing of different specifications is solved, lead to using inconvenient problem, the people's of being convenient for operation to improve work efficiency, but the device is not convenient for process out the fossil fragments that can assemble together, and further, the device can't reduce the influence that instantaneous processing produced stress concentration and brought.

Disclosure of Invention

The invention provides a light steel keel ceiling processing system and method, which have the beneficial effects that keels capable of being assembled together can be processed, and further, the influence caused by stress concentration generated by instantaneous processing can be reduced.

The invention relates to the technical field of keel processing, in particular to a light steel keel ceiling processing system which comprises a containing plate, a blocking plate, a bending block I, a bending block II and a retaining block.

The containing plate is provided with a baffle plate, the containing plate is fixedly connected with a bending block I, the containing plate is fixedly connected with a bending block II, the containing plate is fixedly connected with a retaining block, and the retaining block is provided with a through groove.

The utility model provides a light gauge steel furred ceiling system of processing still includes link, balladeur train I, pound piece and draw runner board I, the link with hold board fixed connection, balladeur train I and link fixed connection, sliding connection has on the balladeur train I and pound the piece, pound fixedly connected with draw runner board I on the piece, pound the piece and hold the board cooperation.

The utility model provides a light gauge steel furred ceiling system of processing still includes rotates motor, traveller I, gear I and cam, rotates the motor and installs on the link, rotates the fixedly connected with cam on the output shaft of motor, installs gear I on the cam, fixedly connected with traveller I on the eccentric position of gear I, I sliding connection of traveller is in chute board I.

The utility model provides a light gauge steel furred ceiling system of processing still includes the gleitbretter, traveller II, the hole piece, counter weight lift post, drag piece and rack, gleitbretter fixed connection is on holding the board, sliding connection has traveller II in the gleitbretter, fixedly connected with spring I between traveller II and the gleitbretter, fixedly connected with hole piece on the traveller II, sliding connection has counter weight lift post in the hole piece, the one end fixedly connected with of counter weight lift post drags the piece, the other end fixedly connected with rack of counter weight lift post, drag the piece with hold the board cooperation, the rack is connected with I transmission of gear.

The utility model provides a light gauge steel furred ceiling system of processing still includes telescopic link I, hole piece, spout board II, mounting bracket, the board of bending and gear II, the stiff end of telescopic link I with hold board fixed connection, the expansion end and the hole piece fixed connection of telescopic link I, the hole piece with hold the erection column sliding connection of board lower part, sliding connection has the mounting bracket on spout board II, fixedly connected with gear II on the board of bending, the board of bending is connected with the mounting bracket is articulated, spout board II be provided with two, two II symmetries of spout board are installed at the both ends of hole piece, two boards of bending respectively with pound the both sides cooperation of piece.

The light steel keel ceiling processing system further comprises a rack and a threaded hole piece, the rack is in transmission connection with the gear II, the threaded hole piece is fixedly connected to the rack, and the rack is in sliding connection with the mounting frame.

The utility model provides a light gauge steel furred ceiling system of processing still includes the draw runner, telescopic link II, traveller III, biax motor and lead screw, the stiff end and the draw runner fixed connection of telescopic link II, the expansion end and the III fixed connection of traveller of telescopic link II, the lower part fixedly connected with biax motor of traveller III, the lead screw is installed to the symmetry on the output shaft of biax motor both sides, two lead screws are connected with two screw hole piece screw thread transmission respectively, traveller III and two rack sliding connection, two mounting brackets are sliding connection respectively in the both sides of draw runner.

The utility model provides a light gauge steel furred ceiling system of processing still includes the undercarriage, the spout board III, the slip table, the slotting cutter, three hornblocks, the control frame, bevel block and mount, undercarriage fixed connection is in the lower part of holding the board, two spout boards III of symmetry fixedly connected with on the undercarriage, sliding connection has the slotting cutter on two spout boards III respectively, two slotting cutter symmetry installations, two slotting cutters all with lead to the groove cooperation, spring II has been cup jointed between slip table and the spout board III, mount fixed connection is in the lower part of holding the board, sliding connection has the control frame on the mount, fixedly connected with bevel block is distinguished at the both ends of control frame, two bevel blocks cooperate with two three hornblocks respectively.

The light steel keel ceiling processing system further comprises an upper rod, a lower rod and a sliding groove, wherein the sliding groove is formed in the lower rod, and the upper rod is connected in the sliding groove in a sliding mode.

A method for processing a keel by a light steel keel ceiling processing system comprises the following steps:

the method comprises the following steps: placing the iron bars on the containing plate and penetrating through the baffle plate, and starting the rotating motor to rotate so that the iron bars are hit by the hitting blocks;

step two: controlling the telescopic rod II to stretch and retract so that the two racks drive the two bending plates to gradually bend the iron bars through the gear II;

step three: in the bending process, the smashing block smashes the iron bar, so that the bending position of the iron bar approaches to a right angle, and at the moment, the double-shaft motor is started to rotate, so that the two bending plates are matched with the smashing block to be processed into an upper rod embryonic form;

step four: when the rotating motor is started to rotate, the rack can be intermittently driven to move through the gear I, and the iron bars are automatically conveyed under the action of the dragging block and the baffle plate;

step five: the telescopic rod I is controlled to stretch, and when the bending plate carries out forming processing on the upper rod, the bending force is adjusted according to different moments;

step six: the control frame is adjusted to enable the two bevel blocks to drive the two grooving cutters to cut off the upper rod with the same force through the triangular blocks, so that the upper rod is processed into the lower rod, and finally the upper rod is assembled.

The light steel keel ceiling processing system has the beneficial effects that:

the iron bar is placed on the containing plate and penetrates through the baffle plate, the U-shaped iron bar sequentially passes through the bending block I, the bending block II and the holding block after being bent, gaps are formed among the bending block I, the bending block II and the holding block, the U-shaped iron bar is bent gradually, the forming time is prolonged, and the influence caused by stress concentration generated by instantaneous processing is reduced.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first structural schematic diagram of the whole light steel keel ceiling processing system of the invention;

FIG. 2 is a first schematic structural view of a light gauge steel ceiling processing system part according to the present invention;

FIG. 3 is a second schematic structural view of a light gauge steel ceiling processing system part of the present invention;

FIG. 4 is a third schematic structural view of a light gauge steel ceiling processing system part of the present invention;

FIG. 5 is a fourth schematic structural view of a light gauge steel ceiling processing system part of the present invention;

FIG. 6 is a fifth structural schematic view of a light gauge steel ceiling processing system portion of the present invention;

fig. 7 is a structural schematic diagram six of a light gauge steel ceiling processing system part of the present invention;

fig. 8 is a seventh structural schematic view of a light gauge steel ceiling processing system part of the present invention;

fig. 9 is an eighth schematic structural view of a processing system part of a light steel keel ceiling according to the invention.

In the figure: an upper stem 101; a lower bar 102; a chute 103; a holding plate 201; a rail plate 202; a bending block I203; a bending block II 204; a holding block 205; a connecting frame 301; a rotating motor 302; a carriage I303; smashing a block 304; a chute plate I305; a sliding column I306; a gear I307; a cam 308; a slide sheet 401; a sliding column II 402; a hole block 403; a lifting column 404; a drag block 405; a rack 406; a telescopic rod I501; a hole piece 502; a chute plate II 503; a carriage II 504; a slide rail frame 505; a bending plate 506; a gear II 507; a rack 508; a threaded bore piece 509; a slide bar 601; a telescopic rod II 602; a sliding column III 603; a dual-axis motor 604; a screw rod 605; a lower frame 701; a chute plate III 702; a slide table 703; a grooving cutter 704; a triangular block 705; a control lever 706; a ramp block 707; a mount 708.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore are not to be construed as limiting the invention, and further, the terms "first", "second", etc., are used only for descriptive purposes and are not intended to indicate or imply relative importance or to implicitly indicate the number of technical features indicated, whereby the features defined as "first", "second", etc., may explicitly or implicitly include one or more of such features, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 9, the invention relates to the technical field of keel processing, and more particularly relates to a light steel keel ceiling processing system, which comprises a containing plate 201, a barrier plate 202, a bending block i 203, a bending block ii 204 and a holding block 205.

The containing plate 201 is provided with a baffle plate 202, the containing plate 201 is fixedly connected with a bending block I203, the containing plate 201 is fixedly connected with a bending block II 204, the containing plate 201 is fixedly connected with a retaining block 205, and the retaining block 205 is provided with a through groove; the iron bars are placed on the containing plate 201 and penetrate through the baffle plate 202, after the iron bars are bent, the U-shaped iron bars sequentially pass through the bending block I203, the bending block II 204 and the retaining block 205, gaps are formed among the bending block I203, the bending block II 204 and the retaining block 205, the U-shaped iron bars are gradually bent, the forming time is prolonged, and the influence caused by stress concentration generated by instantaneous processing is reduced.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 9, the light gauge steel ceiling processing system further includes a connecting frame 301, a carriage i 303, a smashing block 304 and a sliding groove plate i 305, the connecting frame 301 is fixedly connected with the containing plate 201, the carriage i 303 is fixedly connected with the connecting frame 301, the carriage i 303 is slidably connected with the smashing block 304, the smashing block 304 is fixedly connected with the sliding groove plate i 305, and the smashing block 304 is matched with the containing plate 201; the control is pounded piece 304 and is constantly lifted up the back whereabouts, can make to pound piece 304 and pound the hitting to the ironbar to be convenient for make the ironbar department of bending near the right angle, then can increase the area of contact of the face of connecting both sides limit on the U type fossil fragments and mounting panels such as furred ceiling, increase the practicality.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 9, the light gauge steel ceiling processing system further includes a rotating motor 302, a sliding column i 306, a gear i 307 and a cam 308, the rotating motor 302 is mounted on the connecting frame 301, the cam 308 is fixedly connected to an output shaft of the rotating motor 302, the gear i 307 is mounted on the cam 308, the sliding column i 306 is fixedly connected to an eccentric position of the gear i 307, and the sliding column i 306 is slidably connected in the sliding chute plate i 305; the rotating motor 302 is started to rotate, the cam 308 can rotate by taking the axis of the rotating motor 302 as an axis, so that the sliding column I306 slides in the sliding chute plate I305, the smashing block 304 is driven to fall after being continuously lifted, and the effect of smashing and hitting the iron bars by the smashing block 304 is achieved.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 9, the light steel keel ceiling processing system further includes a sliding piece 401, a sliding column ii 402, a hole block 403, a counterweight lifting column 404, a dragging block 405 and a rack 406, the sliding piece 401 is fixedly connected to the containing plate 201, the sliding piece 401 is slidably connected to the sliding column ii 402, a spring i is fixedly connected between the sliding column ii 402 and the sliding piece 401, the sliding column ii 402 is fixedly connected to the hole block 403, the counterweight lifting column 404 is slidably connected to the hole block 403, one end of the counterweight lifting column 404 is fixedly connected to the dragging block 405, the other end of the counterweight lifting column 404 is fixedly connected to the rack 406, the dragging block 405 is matched with the containing plate 201, and the rack 406 is in transmission connection with a gear i 307; when the rotating motor 302 is started to rotate, the gear I307 can rotate by taking the axis of the output shaft of the rotating motor 302 as the shaft, and under the action of the counterweight lifting column 404, the rack 406 always tends to move downwards, so that the gear I307 can intermittently drive the rack 406 to move, and when the gear I307 drives the rack 406 to move, the rack 406 is upwards supported, and at the moment, under the action of the dragging block 405 and the baffle 202, the automatic conveying of the iron bars is realized.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 9, the light steel keel ceiling processing system further includes a telescopic rod i 501, a hole piece 502, a chute plate ii 503, an installation frame 504, a bending plate 505 and a gear ii 506, a fixed end of the telescopic rod i 501 is fixedly connected with the containing plate 201, a movable end of the telescopic rod i 501 is fixedly connected with the hole piece 502, the hole piece 502 is slidably connected with a vertical column at the lower part of the containing plate 201, the chute plate ii 503 is slidably connected with the installation frame 504, the bending plate 505 is fixedly connected with the gear ii 506, the bending plate 505 is hinged with the installation frame 504, two chute plates ii 503 are arranged on the two ends of the hole piece 502, the two bending plates 505 are respectively matched with two sides of the pounding block 304; control telescopic link I501 stretches out and draws back, can drive hole piece 502 and slide on holding the upstand of board 201 lower part to adjust two mounting brackets 504 and hold the distance between the board 201, realize then when board 505 of bending carries out the shaping processing to the upper boom 101, according to the difference of moment, and the size of fifty percent discount curved force is adjusted.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 9, and the light gauge steel ceiling processing system further includes a rack 507 and a threaded hole piece 508, the rack 507 is in transmission connection with a gear ii 506, the threaded hole piece 508 is fixedly connected to the rack 507, and the rack 507 is in sliding connection with the mounting frame 504; and meanwhile, the two racks 507 are controlled to lift, so that the two racks 507 can drive the two bending plates 505 to bend at the same angle, and the symmetrical effect of keel bending processing is improved.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 9, the light steel keel ceiling processing system further includes a slide bar 601, a telescopic rod ii 602, a slide post iii 603, a dual-axis motor 604 and a screw rod 605, a fixed end of the telescopic rod ii 602 is fixedly connected with the slide bar 601, a movable end of the telescopic rod ii 602 is fixedly connected with the slide post iii 603, a lower portion of the slide post iii 603 is fixedly connected with the dual-axis motor 604, the screw rods 605 are symmetrically installed on output shafts at two sides of the dual-axis motor 604, the two screw rods 605 are respectively in threaded transmission connection with the two threaded hole pieces 508, the slide post iii 603 is in sliding connection with the two racks 507, and the two mounting brackets 504 are respectively in sliding connection with two sides of the; controlling the telescopic rod II 602 to stretch and retract, so that the two racks 507 drive the two bending plates 505 to bend the iron bars through the gear II 506; when the smashing block 304 smashes the iron bar, the bending position of the iron bar approaches to a right angle, and at the moment, the double-shaft motor 604 is started to rotate, so that the two bending plates 505 are matched with the smashing block 304 to be processed into the upper rod 101.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 9, where the light steel keel ceiling processing system further includes a lower frame 701, two chute plates iii 702, a sliding table 703, a grooving cutter 704, a triangular block 705, a control frame 706, a bevel block 707, and a fixing frame 708, where the lower frame 701 is fixedly connected to the lower portion of the accommodating plate 201, the lower frame 701 is symmetrically and fixedly connected with the two chute plates iii 702, the two chute plates iii 702 are respectively and slidably connected with the grooving cutter 704, the two grooving cutters 704 are symmetrically installed, the two grooving cutters 704 are both matched with the through grooves, a spring ii is sleeved between the sliding table 703 and the chute plates iii 702, the fixing frame 708 is fixedly connected to the lower portion of the accommodating plate 201, the fixing frame 708 is slidably connected with the control frame 706, two ends of the control frame 706 are respectively and fixedly connected with a bevel block 707, and the two bevel blocks 707 are respectively matched with the two triangular blocks 705; and adjusting the control frame 706 to enable the two bevel blocks 707 to drive the two grooving cutters 704 through the triangular block 705 to cut the upper rod 101 at the same force, so that the upper rod 101 is processed into the lower rod 102, and finally the assembly is carried out.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1 to 9, and the light gauge steel ceiling processing system further includes an upper rod 101, a lower rod 102 and a sliding groove 103, the sliding groove 103 is arranged on the lower rod 102, and the upper rod 101 is slidably connected in the sliding groove 103; the design that the upper rod 101 and the lower rod 102 are assembled through the sliding groove 103 can improve the firmness of the device, reduce the influence caused by corrosion when the rivet or the butt joint is connected, and improve the firmness and the shock resistance; since the lower bar 102 is machined from the upper bar 101, the occurrence of uneven keel fittings can be reduced.

A method for processing a keel by a light steel keel ceiling processing system comprises the following steps:

the method comprises the following steps: placing the iron bars on the containing plate 201 and penetrating through the barrier plate 202, and starting the rotating motor 302 to rotate so that the iron bars are hit by the hitting block 304;

step two: controlling the telescopic rod II 602 to stretch and retract, so that the two racks 507 drive the two bending plates 505 to gradually bend the iron bars through the gear II 506;

step three: in the bending process, the smashing block 304 smashes the iron bars, so that the bending positions of the iron bars approach to right angles, at the moment, the double-shaft motor 604 is started to rotate, the two bending plates 505 are matched with the smashing block 304, and the blank of the upper rod 101 is processed;

step four: when the rotating motor 302 is started to rotate, the rack 406 can be intermittently driven to move through the gear I307, and iron bars are automatically conveyed under the action of the dragging block 405 and the barrier plate 202;

step five: the telescopic rod I501 is controlled to stretch, and when the bending plate 505 carries out molding processing on the upper rod 101, the bending force is adjusted according to different moments;

step six: and adjusting the control frame 706 to enable the two bevel blocks 707 to drive the two grooving cutters 704 through the triangular block 705 to cut the upper rod 101 at the same force, so that the upper rod 101 is processed into the lower rod 102, and finally the assembly is carried out.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. The utility model provides a light gauge steel furred ceiling system of processing, includes and holds board (201), sideboard (202), bend piece I (203), bend piece II (204) and keep piece (205), its characterized in that: the storage plate (201) is provided with a baffle plate (202), the storage plate (201) is fixedly connected with a bending block I (203), the storage plate (201) is fixedly connected with a bending block II (204), the storage plate (201) is fixedly connected with a holding block (205), and the holding block (205) is provided with a through groove.

2. The light gauge steel ceiling processing system of claim 1, wherein: the utility model provides a light gauge steel furred ceiling system of processing still includes link (301), balladeur train I (303), pound piece (304) and sliding tray board I (305), link (301) with hold board (201) fixed connection, balladeur train I (303) and link (301) fixed connection, sliding connection has on balladeur train I (303) pound piece (304), pound fixedly connected with sliding tray board I (305) on piece (304), pound piece (304) and hold board (201) cooperation.

3. The light gauge steel ceiling processing system of claim 2, wherein: the utility model provides a light gauge steel furred ceiling system of processing still includes rotation motor (302), traveller I (306), gear I (307) and cam (308), rotates motor (302) and installs on link (301), fixedly connected with cam (308) on the output shaft of rotation motor (302), install gear I (307) on cam (308), fixedly connected with traveller I (306) on the eccentric position of gear I (307), traveller I (306) sliding connection is in chute board I (305).

4. The light gauge steel ceiling processing system of claim 3, wherein: the utility model provides a light gauge steel furred ceiling system of processing still includes gleitbretter (401), traveller II (402), hole piece (403), counter weight lift post (404), drag piece (405) and rack (406), gleitbretter (401) fixed connection is on holding board (201), sliding connection has traveller II (402) in gleitbretter (401), fixedly connected with spring I between traveller II (402) and gleitbretter (401), fixedly connected with hole piece (403) on traveller II (402), sliding connection has counter weight lift post (404) in hole piece (403), the one end fixedly connected with of counter weight lift post (404) drags piece (405), the other end fixedly connected with rack (406) of counter weight lift post (404), drag piece (405) and hold board (201) cooperation, rack (406) are connected with gear I (307) transmission.

5. The light gauge steel ceiling processing system of claim 4, wherein: the utility model provides a light gauge steel furred ceiling system of processing still includes telescopic link I (501), hole piece (502), spout board II (503), mounting bracket (504), bend board (505) and gear II (506), the stiff end and the board (201) fixed connection that holds of telescopic link I (501), the expansion end and the hole piece (502) fixed connection of telescopic link I (501), hole piece (502) and the upstand sliding connection who holds board (201) lower part, sliding connection has mounting bracket (504) on spout board II (503), fixedly connected with gear II (506) on the board (505) of bending, the board (505) of bending is connected with mounting bracket (504) are articulated, spout board II (503) be provided with two, the both ends at hole piece (502) are installed to two spout board II (503) symmetry, two board (505) of bending respectively with pound the both sides cooperation of piece (304).

6. The light gauge steel ceiling processing system of claim 5, wherein: the light steel keel ceiling processing system further comprises a rack (507) and a threaded hole piece (508), the rack (507) is in transmission connection with the gear II (506), the threaded hole piece (508) is fixedly connected to the rack (507), and the rack (507) is in sliding connection with the mounting rack (504).

7. The light gauge steel ceiling processing system of claim 6, wherein: the utility model provides a light gauge steel furred ceiling system of processing still includes draw runner (601), telescopic link II (602), traveller III (603), biax motor (604) and lead screw (605), the stiff end and draw runner (601) fixed connection of telescopic link II (602), the expansion end and the traveller III (603) fixed connection of telescopic link II (602), the lower part fixedly connected with biax motor (604) of traveller III (603), lead screw (605) are installed to the symmetry on the output shaft of biax motor (604) both sides, two lead screws (605) are connected with two screw hole piece (508) screw transmission respectively, traveller III (603) and two rack (507) sliding connection, two mounting bracket (504) sliding connection are in the both sides of draw runner (601) respectively.

8. The light gauge steel ceiling processing system of claim 7, wherein: the light steel keel ceiling processing system also comprises a lower frame (701), a sliding groove plate III (702), a sliding table (703), a grooving cutter (704), a triangular block (705), a control frame (706), an inclined plane block (707) and a fixing frame (708), lower carriage (701) fixed connection is in the lower part that holds board (201), symmetrical two slotted boards III (702) of fixedly connected with on lower carriage (701), sliding connection has grooving sword (704) respectively on two slotted boards III (702), two grooving sword (704) symmetry installation, two grooving sword (704) all with lead to the groove cooperation, the spring II has been cup jointed between slip table (703) and slotted board III (702), mount (708) fixed connection is in the lower part that holds board (201), sliding connection has control frame (706) on mount (708), the both ends difference fixedly connected with bevel block (707) of control frame (706), two bevel block (707) cooperate with two triangular block (705) respectively.

9. The light gauge steel ceiling processing system of claim 8, wherein: the light steel keel ceiling processing system further comprises an upper rod (101), a lower rod (102) and a sliding groove (103), the sliding groove (103) is formed in the lower rod (102), and the upper rod (101) is connected in the sliding groove (103) in a sliding mode.

10. A method of manufacturing a runner using the light gauge steel ceiling machining system of claim 9, comprising the steps of:

the method comprises the following steps: placing the iron bars on the containing plate (201) and penetrating through the barrier plate (202), and starting the rotating motor (302) to rotate to enable the smashing blocks (304) to pound the iron bars;

step two: controlling the telescopic rod II (602) to stretch and retract, so that the two racks (507) drive the two bending plates (505) to gradually bend the iron bars through the gear II (506);

step three: in the bending process, the smashing block (304) smashes the iron bar, so that the bending position of the iron bar approaches to a right angle, at the moment, the double-shaft motor (604) is started to rotate, and the two bending plates (505) are matched with the smashing block (304) to be processed into a prototype of the upper rod (101);

step four: when the rotating motor (302) is started to rotate, the rack (406) can be intermittently driven to move through the gear I (307), and the iron bars are automatically conveyed under the action of the dragging block (405) and the baffle plate (202);

step five: the telescopic rod I (501) is controlled to stretch, and when the bending plate (505) is used for forming the upper rod (101), the bending force is adjusted according to different moments;

step six: and adjusting the control frame (706), so that the two bevel blocks (707) drive the two grooving cutters (704) to cut off the upper rod (101) with the same force through the triangular block (705), and the upper rod (101) is processed into the lower rod (102) and finally assembled.

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