CN115302293B - Integral angle bead cutting continuous feeder - Google Patents

Abstract

The invention provides an integrated angle bead cutting continuous feeder, which relates to the technical field of mechanical equipment and comprises a table top, wherein a plurality of notches are formed in the table top, roller notches, feeding notches, cutting notches and locking notches are formed in the notches, a blanking notch, a waste notch and an electric path notch are formed in the notches, a section bar baffle is fixedly arranged on the table top, a 90-degree V-shaped cutting assembly is arranged on one side of the table top, a vertical cutting assembly is arranged on the other side of the table top, a material protecting assembly is arranged below the roller notch, a feeding assembly is arranged below the feeding notch, a locking assembly is arranged below the locking notch, a blanking assembly is arranged below the blanking notch, and a waste collecting assembly is arranged below the waste notch. Is beneficial to batch production.

Description

Integral angle bead cutting continuous feeder

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to an integrated angle bead cutting continuous feeder.

Background

In the process of producing doors and windows, the two ends of the aluminum profiles are required to be cut with 45-degree angle bead so that the adjacent aluminum profiles can be connected at 90-degree angle.

Most door frame angle bead all-in-one and double-end saw cutting machines on the market at present generally adopt firstly cutting to accomplish 45 degrees to two 45 degrees angle bead cutting of door frame section bar and then to separate with two saw sword cutting to accomplish the angle bead to sharp angle, again by artifical taking, perhaps take to cut the angle bead on another machine after 45 degrees cutting of a machine. With respect to such a manner as described above, the inventors consider that the following drawbacks exist; the safety processing aging is affected, redundant loss is generated on the profile, and the labor consumption is high, so that the rapid processing is not facilitated.

Disclosure of Invention

The invention aims to solve the problem that in the prior art, more manpower and material resources are consumed due to insufficient automation of feeding and discharging of materials in the door and window processing process, and provides an integrated angle bead cutting continuous feeder.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides an integrative angle bead cutting continuous feeder, includes the mesa, be provided with a plurality of notches on the mesa, running roller notch, pay-off notch, cutting notch, locking notch have been seted up to the notch, lower swage notch, waste material notch, electric circuit notch, fixedly on the mesa be provided with the section bar baffle, one side sets up 90V type cutting assembly on the mesa, and the opposite side sets up perpendicular cutting assembly on the mesa, set up the material protection subassembly under the running roller notch, the pay-off notch below sets up feeding assembly, set up the locking subassembly under the locking notch, the swage notch below sets up down swage subassembly, the waste material notch below sets up waste collection subassembly, the adjacent cutting notch below of 90V type cutting assembly sets up angle bead cutting assembly, electric circuit notch below is kept away from in the avris of equipment and is set up electric circuit box subassembly.

Through adopting above-mentioned technical scheme, place the aluminium alloy at the section bar flange of mesa, lock the material pole on the material locking subassembly and rise the formation of two angles of protection of aluminium alloy simultaneously, lock the material pole parallel withdrawal back decline in the material locking subassembly, hold down the tight aluminium alloy of clamp down behind the clamp down board parallel movement near section bar in the clamp down assembly, the feeding subassembly is through the track parallel movement in the assembly mounting bracket, L type clamp down compresses tightly aluminium alloy, 90V type cutting knife in the V type cutting subassembly of 90 degrees afterwards, withdraw after cutting aluminium alloy through track movement, the cutting knife on the angle bead cutting subassembly afterwards, it is cut to go up through cutting notch to cut off the section bar V mouth in the middle after simultaneously accomplishing the formation of two angles of protection of aluminium alloy, after the cutting is accomplished, lock the material pole parallel withdrawal back decline on the material locking subassembly, hold down the clamp down behind the clamp down subassembly is gone up and the clamp down the aluminium alloy of L type clamp down, the aluminium alloy height mesa, three group tracks on the assembly side of passing through the assembly move the assembly clamp down the aluminium alloy to the edge, can carry out angle in the cutting assembly, can cut the angle of cut through the cutting assembly is realized through the vertical positioning of the cutting assembly, the present manufacturing process is cut through the aluminium alloy, the cutting assembly is cut down through the cutting equipment, the angle is cut down in the side of the cutting assembly is cut down, the side is cut down through the cutting assembly is cut down in the top of the assembly is cut to the side of the assembly. The labor intensity is reduced, the cutting efficiency of the aluminum profile doors and windows is effectively improved, the loss of the aluminum profile is reduced, and the mass production of the aluminum profile doors and windows is facilitated.

As a preferred embodiment, the section bars of the section bar baffle have the same section width and the centers are arranged and fixed on the same straight line.

The utility model discloses a material locking device, including mesa, the mesa is seted up, no. one lock material notch, no. two lock material notches are a set of, no. three lock material notches, no. four lock material notches are a set of, no. five lock material notches, no. six lock material notches are a set of, and the below of every group all sets up a set of lock material subassembly, lock material subassembly is including lifting cylinder, lifting cylinder guide arm fixed plate is fixed with mesa lower terminal surface installation, lifting cylinder body installs the lifting plate perpendicularly, parallel cylinder is installed to lifting plate lower part, lifting plate upper portion is provided with the slider fixing base, the slider fixing base is installed on parallel slider, parallel slider is connected with parallel cylinder output fixed plate with parallel track's one end, the lock material pole is installed to the parallel slider other end, lock material pole top end face perpendicular to a set of lock material notch in, the lock material pole is through lifting cylinder vertical lift and through parallel cylinder parallel movement.

The lower part of a first pressing notch, a second pressing notch and a third pressing notch which are formed in the table top is respectively provided with a pressing component, the pressing components comprise a first pressing cylinder and an advancing and retreating cylinder, the first pressing cylinder body is mounted on an advancing and retreating moving sliding block to an advancing and retreating track through a connecting piece, the advancing and retreating track is mounted on a vertical connecting plate, the top end of the vertical connecting plate is fixed on the lower end face of the table top, a guide rod fixing plate of the advancing and retreating cylinder is connected with the first pressing cylinder through the connecting piece, a first output fixing plate of the first pressing cylinder is provided with a lower pressing plate, the first output fixing plate vertically extends out of the second pressing notch in the table top with the lower pressing plate, and the lower pressing plate moves in parallel through the advancing and retreating cylinder and vertically ascends and descends through the first pressing cylinder.

The beneficial effects of adopting the further scheme are as follows: the aluminum profile is placed on one side of the profile baffle, the pressing assembly moves down to the profile baffle side in parallel, then the pressing plate descends to press the aluminum profile, meanwhile, the locking rod on the locking assembly moves up to the side of the aluminum profile to lock the aluminum profile after the locking groove opening vertically ascends out of the table top, the aluminum profile is convenient to cut stably in the next step, the locking rod descends down to the table top after the aluminum profile is cut, the pressing assembly retreats, and blocking of the feeding assembly to the aluminum profile feeding process is avoided.

As a preferred embodiment, set up 90 degrees V cutting assembly on the mesa, 90 degrees V cutting assembly includes a cutting seat and No. two cutting seats, the cutting motor output shaft in a cutting seat and No. two cutting seats respectively installs the degree cutting sword, the cutting sword in a cutting seat and No. two cutting seats is 90 degrees V type, the one side of a cutting seat and No. two cutting seats is all fixed on the subassembly lifting plate, the subassembly lifting plate is square four, be provided with the lead screw lift in the subassembly lifting plate, the lead screw head fixedly connected with bed plate of lead screw lift, lead screw lift main part terminal surface is connected on the subassembly lifting plate inboard through the bearing diaphragm, the input shaft trompil of lead screw lift is connected to the servo motor outside the subassembly lifting plate, the lifting track spare is installed in the trilateral outside of keeping away from the cutting seat, the slider of lifting track spare is connected on the U type curb plate inboard, the U type curb plate is fixed on the bed plate, the terminal surface is installed on a slider both sides under the bed plate and is installed on a slider, no. one number one the cylinder is installed on the side of the lifting track and is No. one the cylinder is installed on the two, no. two the side of the cylinder is connected with the cylinder is fixed on the side of the cylinder side through the fixed connection, no. 90V is connected with the centre line, no. one the cylinder is connected with the side of the cylinder through the side of the cylinder has the side of the V.

The angle bead cutting assembly is arranged below the second cutting notch on the table top and comprises a first air cylinder, the first air cylinder is vertically arranged on the fixed plate, the top end of the upper portion of the fixed plate is connected to the table top, a sliding table module is arranged on an output fixed plate of the first air cylinder, one end of the sliding table module is an adjusting knob, an angle bead motor is arranged at the top of the sliding table module, and an angle bead cutting knife is arranged on an output shaft of the angle bead motor.

The beneficial effects of adopting the further scheme are as follows: the V-shaped saw blade mounted on the 90-degree V-shaped cutting seat is hung above the table top, the head of the screw rod is taken as a fulcrum through the screw rod lifter, the component lifting plate is lifted to a required height through the lifting rail, the component lifting plate moves in parallel through a first rail, the stable aluminum profile is subjected to 90-degree V-shaped cutting and then moves back, the V-shaped opening is left to a proper height, and then the V-shaped opening is cut off centrally through a second cutting notch and then descends, and simultaneously, the cutting of two corner protectors is completed.

As a preferred implementation mode, a feeding assembly, an assembly mounting frame and a mounting frame seat are arranged below a first feeding slot, a second feeding slot and a third feeding slot which are formed in a table top, the assembly mounting frame comprises a supporting bottom rod, a first assembly mounting plate, a second assembly mounting plate and a third assembly plate are vertically fixed on the supporting bottom rod from left to right in sequence, a feeding sliding block is mounted on the outer side of the first assembly mounting plate, a frame transverse plate is horizontally connected between the second assembly mounting plate and the third assembly plate, a second air cylinder is mounted on the frame transverse plate, a body of the second air cylinder is fixedly connected to a frame template, a guide rod fixing plate of the second air cylinder is in butt joint with a guide rod fixing plate of the third air cylinder, the third air cylinder is mounted on a feeding air cylinder seat frame plate, and the top surface of the feeding air cylinder seat frame plate is fixedly connected with the lower end surface of the table top;

The mounting frame seat comprises a first mounting frame seat, a second mounting frame seat and a third mounting frame seat, wherein the first mounting frame seat, the second mounting frame seat and the third mounting frame seat are respectively connected with a first component mounting plate, a second component mounting plate and a third component mounting plate through rails, two groups of first feeding rails are arranged on one side of the first mounting frame seat, the first feeding rails are connected with feeding sliding blocks on one side of the first component mounting plate, the second feeding rails on one side of the second mounting frame seat are connected with the second component mounting plate through sliding blocks, and the second feeding rails on one side of the third mounting frame seat are connected with the third component mounting plate through sliding rails;

the utility model discloses a feeding device, including subassembly mounting panel, no. two subassembly mounting panels, no. three subassembly boards in the subassembly mounting bracket keep away from orbital one side and set up feeding component respectively, feeding component is including L shape holding down plate, clamp material cylinder, travel switch and lifting cylinder, the clamp material track is connected to the holding down plate, the clamp material slider on the clamp material track is installed one side of No. four subassembly mounting panels, the fixed end fixed connection is in the middle part of L holding down plate to a clamp material cylinder, install respectively in clamp material cylinder body and jacking cylinder body on the orbital both sides of clamp material respectively on No. four subassembly mounting panels, clamp material lifting block is held to clamp between clamping plate and the No. two clamping plates, clamp material lifting block top corresponds mesa feed slot and mesa parallel and level, the holding down plate corresponds through feeding slot and mesa top, L shape holding down plate passes through clamp material cylinder and goes up and down perpendicularly, clamp material lifting block is through the jacking that promotes the cylinder perpendicularly.

The beneficial effects of adopting the further scheme are as follows: the setting of feeding assembly, L holding down plate on the feeding assembly is adopted to the aluminium alloy that the cutting is accomplished compresses tightly the aluminium alloy, sets up the clamp material rising piece that the jacking power is greater than L holding down plate pressure through the cylinder and leaves the aluminium alloy and be higher than the mesa after, and the subassembly mounting bracket is carried to mesa edge by the track removal of mounting bracket seat one side together with feeding assembly, loosens afterwards and withdraws. And finishing the feeding process of the aluminum profile.

As a preferred implementation mode, the waste notch below that the mesa was seted up is provided with the waste collection subassembly, inner structure is kept away from in the below of the electric circuit notch that the mesa was seted up and is set up the electric box subassembly in the equipment outside, the waste collection subassembly includes waste collection box and aluminium bits dust bag, waste collection box square upper end installation is connected at waste tank mouth medial edge, the outside of waste collection box is located to aluminium bits dust bag, and the tuber pipe is connected into through waste collection box one side trompil, waste collection box below outside is equipped with waste outlet door plant, electric circuit notch below is used for 90V cutting assembly and the required power removal space of perpendicular cutting assembly, the required electric circuit control element of equipment is installed to the box of electric box subassembly.

The beneficial effects of adopting the further scheme are as follows: the waste material that aluminium alloy produced at cutting angle in-process is by the wind direction power that the cutting knife rotated and bring, in the waste material collecting box body in the waste notch is sent to the waste material, and 90V type cutting assembly and the required power supply path of perpendicular cutting assembly remove, provide effectual safe space by under the electric circuit slot to and with the pipeline of other electrical components of equipment together lead to the setting with the electric box of outside, the electric box provides independent safe space for equipment control device.

As a preferred implementation mode, the below of three material protection notch sets up the material protection subassembly respectively, set up the material protection subassembly and include the running roller, the both ends of running roller are installed at u type spare, u type spare links to each other with the material protection cylinder guide arm fixed plate on the material protection cylinder, the cylinder body of material protection cylinder is installed perpendicularly at the material protection bedplate, the top of material protection bedplate is fixed in the below of mesa, the top of running roller is located the running roller notch and is less than notch up end, the running roller passes through the material protection cylinder and goes up and down perpendicularly.

The beneficial effects of adopting the further scheme are as follows: before the aluminum profile is positioned and moved on the table top before being cut, the rollers on the three groups of material protection components are vertically lifted above the table top, and the rollers are stressed to move in the moving process, so that scratches caused by friction on the surface of the aluminum profile are avoided.

Compared with the prior art, the invention has the advantages and positive effects that:

1. according to the invention, the height-adjustable 90-degree V-shaped cutting knife is adopted for vertically and movably cutting, and then two corner protectors are continuously cut off simultaneously in the middle through a single saw knife, so that the loss of the aluminum profile can be greatly reduced, and the cutting efficiency is further improved.

2. According to the invention, the aluminum profile can be automatically fed after being continuously cut, so that the time and labor are saved, and the processing efficiency is further improved.

3. The invention can enable the aluminum profile to slide on the roller in the moving process, reduce friction with the table top and avoid scratches and the like on the surface of the aluminum profile.

Drawings

FIG. 1 is a perspective oblique side construction diagram of an integral corner protector cutting continuous feeder of the present invention;

FIG. 2 is a right side view of the integrated corner bead cutting continuous feeder of the present invention;

FIG. 3 is a front view of the integrated corner protector cutting continuous feeder of the present invention;

FIG. 4 is a top view of the integrated corner bead cutting continuous feeder of the present invention;

FIG. 5 is a left side view of the integrated corner protector cutting continuous feeder of the present invention;

FIG. 6 is an interior view of the integrated corner bead cutting continuous feeder of the present invention;

FIG. 7 is a block diagram of a lower nip assembly in an integral corner protector cutting continuous feeder of the present invention;

FIG. 8 is a block diagram of an angle bead cutting assembly in an integrated angle bead cutting continuous feeder of the present invention;

FIG. 9 is a block diagram of a guard assembly in an integral corner guard cutting continuous feeder of the present invention;

10 is an A-position diagram of the integral angle bead cutting continuous feeder;

FIG. 11 is a block diagram of a framing mounting bracket in the integrated corner protector cutting continuous feeder of the present invention;

FIG. 12 is a block diagram of a feed assembly in an integrated corner protector cutting continuous feeder of the present invention.

Legend description:

1. a table top; 101. a first material protection notch; 102. a first feeding notch; 103. a first material locking notch; 108. a second material protection notch; 1014. a third material protection notch; 102. a first feeding notch; 104. a second material locking notch; 105. a second feeding notch; 106. a first cutting notch; 107. a third feeding notch; 108. a second material protection notch; 109. a third material locking notch; 1010. a fourth material locking notch; 1011. a second notch is cut; 1012. a fifth material locking notch; 1013. a sixth material locking notch; 1014. a third material protection notch; 1015. a first blanking notch; 1016. a second blanking notch; 1017. a third blanking notch; 1018. a waste notch; 1019. an electrical path slot;

2. The upright post is horizontally pulled;

3. a section bar baffle; 301. a first baffle; 302. a second baffle; 303. a third baffle; 304. a fourth baffle; 305. a fifth baffle; 306. a sixth baffle;

4. a 90 degree V-cut assembly; 401. a first cutting seat; 402. a second cutting seat; 403. an assembly lift plate; 404. lifting the track member; 405. a U-shaped side plate; 406. a base plate; 407. installing a connecting plate; 408. a first cylinder slide block; 409. a first rodless cylinder, 4010 and L connecting piece; 4011. a first sliding block; 4012. a first track; 4013. a screw rod lifter; 4014. a bearing transverse plate;

5. a vertical cutting assembly; 501. a vertical cutter; 502. a straight cutting motor; 503. a structural panel; 504. a second slide block; 505. a second track; 506. a second cylinder slide block; 507. a second rodless cylinder;

6. a corner protector cutting assembly; 601. a first air cylinder; 602. a fixing plate; 603. a slipway module; 604. an adjustment knob; 605. a corner protection motor; 606. corner protection cutting knife;

7. a waste collection assembly; 701. a waste collection box; 702. an aluminum scraps dust collecting bag; 703. waste outlet door plate

8. Stand column of the stand;

9. a component mounting rack; 901. a support bottom bar; 902. a second component mounting plate; 903. a third component plate; 904. a first component mounting plate; 905. a feeding slide block; 906. a cylinder block frame plate; 907. a frame cross plate; 908. a second cylinder; 909. a first guide rod fixing plate; 9010. a third cylinder;

10. A column cross plate;

11. a material locking component; 1101. a lifting cylinder; 1102. a rising plate; 1103. a slide block fixing seat; 1104. a parallel slider; 1105. parallel tracks; 1106. a parallel cylinder; 1107. a material locking rod;

12. a blanking component; 1201. a first pressing cylinder; 1202. moving the slide block; 1203. an in-out track; 1204. a vertical connecting plate; 1205. an advance and retreat cylinder; 1206. a connecting piece; 1207. a first output fixing plate; 1208. a lower pressing plate;

13. a material protection component; 1301. a roller; 1302. a u-shaped member; 1303. a guide rod fixing plate of a material protection cylinder; 1304. a material protection cylinder; 1305. a material protection seat plate;

14. a mounting frame base; 1401. a first mounting frame seat; 1402. a second mounting frame seat; 1403. a third mounting frame seat; 1404. a first feeding rail; 1405. a second feeding rail;

15. a feeding assembly; 1501. an L-shaped lower pressure plate; 1502. a clamping rail; 1503. a clamping slide block; 1504. a fourth component mounting plate; 1505. a first output fixed end; 1506. a clamping cylinder; 1507. a travel switch; 1508. lifting the cylinder; 1509. a first clamping plate; 151010, clamping rising block; 15011. a second clamping plate;

16. an electrical box assembly.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 1, the present invention provides a technical solution: the integral angle bead cutting continuous feeder comprises a table top 1, a section bar baffle 3 arranged on the table top 1, a first material protection notch 101, a second material protection notch 108, a third material protection notch 1014, a first feeding notch 102, a second feeding notch 105, a third feeding notch 107, a first cutting notch 106 and a second cutting notch 1011. The aluminum profile cutting device comprises a first material locking notch 103, a second material locking notch 104, a third material locking notch 109, a fourth material locking notch 1010, a fifth material locking notch 1012, a sixth material locking notch 1013, a first material pressing notch 1015, a second material pressing notch 1016, a third material pressing notch 1017, a waste notch 1018, an electric path notch 1019, a notch and a component for cooperation, wherein the profile baffle 3 comprises a first baffle 301, a second baffle 302, a third baffle 303, a fourth baffle 304, a fifth baffle 305 and a sixth baffle 306, the section widths of the profile baffles 3 are the same, the centers of the section baffles are on the same straight line, the vertical planes of the profile baffles 3 and the plane of a table top 1 are 90 degrees, and the profile baffles 3 are designed to enable aluminum profiles to be accurately placed, so that later cutting of the aluminum profiles is more standard.

As shown in fig. 1-5; the table top 1 is provided with a 90-degree V-shaped cutting assembly 4, the table top 1 comprises a first cutting seat 401 and a second cutting seat 402, 45-degree cutting knives are respectively arranged on output shafts of a cutting motor in the first cutting seat 401 and the second cutting seat 402 and are in a 90-degree V shape, one side of the first cutting seat 401 and one side of the second cutting seat 402 are fixed on an assembly lifting plate 403, the assembly lifting plate 403 is provided with square four plates, a screw rod lifter 4013 is arranged in the assembly lifting plate 403, a screw rod head of the screw rod lifter 4013 is arranged on a base plate 406, the end face of a main body is connected on the inner side of the assembly lifting plate 403 through a bearing transverse plate 4014, an input shaft of the screw rod lifter 4013 is perforated and connected to a servo motor 4015 outside the assembly lifting plate 403, a lifting track piece 404 is arranged on the outer side of a three-face of the assembly lifting plate 403 far away from the cutting seat, a sliding block connected with the lifting track piece 404 is connected on the inner side of a U-shaped side plate 405, the U-shaped side plate 405 is fixed on the base plate 406, the lifting track piece 404 and the setting of the screw rod lifter 4013 is arranged, the screw rod lifter 4013 is used as a fulcrum, the cutting seat and the lifting seat is provided with five-shaped hanging seats. The two sides of the lower end surface of the base plate 406 are arranged on a first sliding block 4011 on a first track 4012, the first track 4012 is fixed on a table top, a connecting plate 407 is arranged at one side of the base plate 406 and is connected with a first cylinder sliding block 408 on a first rodless cylinder 409, connecting pieces 4010 at two ends of the first rodless cylinder 409 are fixed on the table top 1,

The design of two groups of rails below the base plate 406 and a side rodless cylinder drives the cutting assembly to move in parallel on the first rail 4012 through the rodless cylinder sliding block to cut the aluminum profile. The 90-degree V-shaped cutting assembly moves through a first track 4012, and the moving center line of the 90-degree V-shaped cutting blade can pass through a 90-degree V-shaped opening between a fourth baffle plate 304 and a fifth baffle plate 305 and is vertically parallel to the center line of a second cutting notch 1011.

As shown in fig. 2-4, the vertical cutting assembly 5 comprises a vertical cutting motor 502, a vertical cutting knife 501 is installed on an output shaft of the vertical cutting motor 502, one end of a structural plate 503 on which the vertical cutting motor 502 is installed, a second sliding block 504 on a second track 505 is installed on two sides of the structural plate 503 far away from the lower bottom plate of the vertical cutting motor 502, the second track 505 is installed and fixed on the table top 1, the bottom plate far away from the structural plate 503 is connected with a second rodless cylinder 507 through a second cylinder sliding block 506, and two ends of the second rodless cylinder 507 are fixed on the table top 1. The design of the vertical cutting assembly utilizes the No. two rodless air cylinders 507 to push the vertical cutting assembly to move on the No. two rails 505 in a sliding way, so that the aluminum profile can be vertically cut, and the 90-degree cutting function of the equipment is increased.

As shown in fig. 7, the corner protection cutting assembly 6 comprises a first air cylinder 601, the first air cylinder 601 is vertically arranged on a fixed plate 602, the top end above the fixed plate 602 is connected to the lower surface of the table top 1, a sliding table module 603 is arranged on an output fixed plate of the first air cylinder 601, one end of the sliding table module 603 is an adjusting knob 604, a corner protection motor 605 is arranged on the sliding table module 603, and a corner protection cutting knife 606 arranged on an output shaft of the corner protection motor 605 is lifted by the first air cylinder 601 and can vertically pass through a second cutting notch 1011 of the table top 1.

The design of angle bead cutting assembly 6 utilizes cylinder 601 to promote the cutting knife and rises in No. two cutting notch 1011 to cut the aluminium alloy angle bead after the aluminium alloy V mouth cutting on mesa 1 is accomplished, thereby slip table module 603 is used for adjusting angle bead cutting motor and guarantees the accurate cutting of cutting saw sword position to V mouth central point put.

As shown in fig. 10-11, the component mounting rack 9 includes a supporting bottom rod 901, a first component mounting plate 904, a second component mounting plate 902 and a third component plate 903 are vertically fixed on the supporting bottom rod 901 from left to right in sequence, a feeding slide block 905 is installed on the outer side of the first component mounting plate 904, a frame transverse plate 907 is horizontally connected between the second component mounting plate 902 and the third component plate 903, a second air cylinder 908 is installed on the frame transverse plate 907, a frame transverse plate 907 is fixedly connected with a body of the second air cylinder 908, a guide rod fixing plate of the second air cylinder 908 is in butt joint with a guide rod fixing plate 909 of the third air cylinder 9010, the third air cylinder 9010 is installed on a feeding air cylinder seat frame plate 906, and the top surface of the feeding air cylinder seat frame plate 906 is fixedly connected with the lower end surface of the table top 1.

The design of the component mounting frame 9 comprises a first component mounting plate 904, a second component mounting plate 902 and a third component mounting plate 1504 which are connected into a whole through supporting rods, a second air cylinder guide rod fixing plate is abutted with a third air cylinder guide rod fixing plate, a second air cylinder 908 is started in advance for feeding and pressing in the later period, and then the third air cylinder 9010 is used for pushing the aluminum profile.

As shown in fig. 10, the mounting frame 14 includes a first mounting frame 1401, a second mounting frame 1402, and a third mounting frame 1403, which are respectively connected with the first component mounting board 904, the second component mounting board 902, and the third component board 903 by rails, and two groups of first feeding rails 1404 are mounted on one side of the first mounting frame 1401, and are connected with a feeding slider 905 on one side of the first component mounting board 904, and a second feeding rail 1405 on one side of the second mounting frame 1402 is connected with the second component mounting board 902 by a slider. A second feeding rail 1405 is arranged on one side of the third mounting frame 1403 and is connected with the third component plate 903 through a sliding rail.

The design of component mounting bracket 9 and mount pad 14, component mounting panel 904, no. two component mounting panels 902, no. three component mounting panels 1504 on the component mounting bracket 9 are connected by the bracing piece and form an organic wholely, and the design of mount pad 14 for three mount frames are connected through three feeding tracks and three component mounting panels and are formed wholly, and the mount frames are fixed and promote the pay-off through the cylinder under mesa 1, have avoided the feeding assembly 15 of component mounting bracket 9 to advance inconsistent.

As shown in fig. 12, the feeding assembly 15 includes an L-shaped lower pressing plate 1501, a clamping cylinder 1506 and a lifting cylinder 1508, wherein the lower pressing plate 1208 is connected with the clamping rail 1502, a clamping slider 1503 on the clamping rail 1502 is installed on one side of a first component mounting plate 904, a first output fixed end 1505 of the clamping cylinder 1506 is fixedly connected to the middle of the L-shaped lower pressing plate 1501, a travel switch 1507 is installed on a fourth component mounting plate 1504, a clamping cylinder 1506 body and a lifting cylinder 1508 body are respectively installed on the first component mounting plate 904 at two sides of the clamping rail 1502, a first clamping plate 1509 and a second clamping plate 15011 are fixedly installed on the top of a guide rod of the lifting cylinder 1508, a clamping rising block 15010 is clamped between the first clamping plate 1509 and the second clamping plate 15011, the top of the clamping rising block 15010 is flush with the first feeding slot 102 of the first table 1 corresponding to the top of the table 1, the lower pressing plate 1208 is vertically lifted by the first feeding slot 102 and the top 1 of the table 1 corresponding to the lower pressing plate 1208, the L-shaped lower pressing plate 1501 can be vertically lifted by the clamping cylinder, and the lifting block 15010 can vertically lift the clamping block 1508.

The design of the feeding assembly 15 is that the cut aluminum profile is pushed down by the L-shaped lower pressing plate 1501 driven by the descending of the output end of the clamping cylinder 1506, then the lifting cylinder 1508 drives the clamping lifting block 15010 to lift the aluminum profile to the table top 1, the lifting cylinder 1508 has a larger cylinder diameter than the clamping cylinder 1506, the lifting cylinder 1508 can still lift the aluminum profile when receiving the pressing pressure by the L-shaped lower pressing plate 1501, and the three groups of feeding assemblies 15 are adopted in the clamping feeding process, so that the long and short feeding of the aluminum profile can not incline, and the travel switch 1507 is only one mode of the switching electromagnetic valve line belonging to the equipment control cylinder.

As shown in fig. 8, the material locking assembly 11 comprises a lifting cylinder 1101, a guide rod fixing plate of the lifting cylinder 1101 is fixedly installed on the lower end face of the table top 1, a lifting plate 1102 is vertically installed on the cylinder body of the lifting cylinder 1101, a parallel cylinder 1106 is installed on the lower portion of the lifting plate 1102, a slide block fixing seat 1103 is arranged on the upper portion of the lifting plate, a parallel slide block 1104 is installed on the slide block fixing seat 1103, one end of a parallel track 1105 to which the parallel slide block 1104 belongs is connected with an output fixing plate of the parallel cylinder 1106, a material locking rod 1107 is installed on the other end of the parallel slide block 1104, the top end face of the material locking rod 1107 is perpendicular to a group of material locking notch, and the material locking rod 1107 can vertically lift through the lifting cylinder 1101 and can move in parallel through the parallel cylinder 1106.

The design of lock material subassembly 11 adopts lock material pole 1107 to hide in the lock material notch, promotes through lift cylinder 1101, and lock material pole 1107 rises on mesa 1, promotes parallel track 1105 by parallel cylinder 1106 backward, lock material pole 1107 is perpendicular along lock material notch to the aluminium alloy that places on profile baffle 3 limit lean on, returns after the completion of cutting and descends into the lock material notch again, and the pay-off process of avoiding causes the jam to the aluminium alloy.

As shown in fig. 7, the blanking assembly 12 includes a first blanking cylinder 1201, a connecting member 1206 is used to mount a moving slide 1202 to a moving track 1203, the moving track 1203 is mounted on a vertical connecting plate 1204, a top end of the vertical connecting plate 1204 is fixed on a lower end surface of the table top 1, a guide rod fixing plate of a driving and reversing cylinder 1205 is connected with the first blanking cylinder 1201 by the connecting member 1206, a first output fixing plate 1207 of the first blanking cylinder 1201 is provided with a pressing plate 1208, and the first output fixing plate 1207 and the pressing plate 1208 vertically extend out of a second blanking slot 1016 in the table top 1 and can move back and forth in parallel by the driving and reversing cylinder 1205 and vertically lift by the first blanking cylinder 1201.

The design of the lower pressing assembly 12 is that a lower pressing cylinder is pulled by an advance and retreat cylinder 1205 to move to the side of the profile baffle 3 through an inlet and outlet rail 1203, the lower pressing cylinder descends to drive a lower pressing plate 1208 to press down an aluminum profile placed on the side of the profile baffle 3, and after the aluminum profile is cut, the lower pressing plate 1208 ascends and then retreats by the advance and retreat cylinder 1205, so that the aluminum profile is prevented from being blocked by jacking in the feeding process.

As shown in fig. 9, the material protection assembly 13 includes a roller 1301, two ends of the roller 1301 are installed on a u-shaped piece 1302, the u-shaped piece 1302 is connected with a material protection cylinder guide rod fixing plate 1303 on a material protection cylinder 1304, a cylinder body of the material protection cylinder 1304 is vertically installed on a material protection seat plate 1305, the top end of the material protection seat plate 1305 is fixed below a table top 1, the roller 1301 is placed at a groove opening of the roller and is slightly lower than the upper end surface of the groove opening, and the roller 1301 can vertically lift through the material protection cylinder 1304.

The design of the material protection component 13, the aluminum profile needs to be positioned and moved on the table top 1 before being cut, the material protection air cylinders 1304 on the three groups of material protection components 13 are utilized to ascend, meanwhile, the roller 1301 is vertically lifted to be higher than the table top 1, the aluminum profile moves on the force of the roller 1301 in the moving process, after the movement is finished, the material protection air cylinders 1304 descend to be flat in the roller slot of the table top 1, and the scratch caused by the surface friction of the aluminum profile in the moving process is avoided.

As shown in fig. 2, the waste collection assembly 7 comprises a collection box 70 and an aluminum dust collecting bag 702, the square upper end of the waste collection box 701 is installed and connected on the inner side of a waste notch 1018, the aluminum dust collecting bag 702 is arranged on the outer side of the waste collection box 701, an air pipe is connected into the waste collection box through an opening on one side of the waste collection box 701, a waste outlet door plate 703 is arranged on the outer side of the lower portion of the waste collection box 701, a power supply moving space required by the 90-degree V-cutting assembly 4 and the vertical cutting assembly 5 is arranged below an electric circuit slot 1019, and an electric circuit control element required by equipment is installed in the box of the electric box 16. Above-mentioned design, through collecting the effectual place that keeps clean and tidy to the concentration of waste material aluminium bits, the electric box subassembly sets up with the convenient inspection of control system later stage in the box in the outer frame, reserves suitable position under the circuit slot 1019 and is convenient for 90 degrees V type cutting assembly and perpendicular cutting assembly 5 remove required space.

Working principle:

as shown in fig. 1 to 12, the specific working principle in the present invention is as follows:

s1, adjusting the V-shaped cutting at 90 degrees and preparing the corner protector for cutting, starting a servo motor 4015 to rotate an input shaft of a screw rod lifter 4013 at a low speed, taking the head of the screw rod lifter 4013 as a fulcrum, sliding a lifting plate 403 of a component through a lifting track piece 404 to be connected with a V-shaped cutting edge junction point in a first cutting seat 401 and a second cutting seat 402 and adjusting the distance between the V-shaped cutting edge junction point and a table top 1 to the corner protector, finishing hanging a cutting knife on the table top 1, adjusting the V-shaped high-low distance cutting of the aluminum profile at 90 degrees, and then starting motors in the first cutting seat 401 and the second cutting seat 402 to drive the cutting knife to rotate to a state to be cut. Immediately after the corner protector motor 605 is restarted, the corner protector cutter 606 is driven to rotate to a to-be-cut state;

S2, clamping: placing an aluminum profile to be cut on a table top 1 on one side of a profile baffle 3, simultaneously starting a lifting cylinder 1101 and a feeding and retreating cylinder 1205, enabling a material locking rod 1107 to ascend out of a material locking notch, enabling a lower pressing plate 1208 to be parallel to the edge of the profile baffle 3, then starting a parallel cylinder 1106 and a first lower pressing cylinder 1201, enabling the lower pressing plate 1208 to press the aluminum profile, enabling the material locking rod 1107 to vertically and parallelly move to be close to the aluminum profile, locking the aluminum profile by the profile baffle 3, the table top 1, the lower pressing plate 1208 and the material locking rod 1107 on four sides at the moment, and completing the fixation of the aluminum profile, and simultaneously starting a second cylinder 908 in a component mounting frame 9 to push a component frame together with a feeding component 15 on a feeding track, enabling an L-shaped lower pressing plate 1501 to move to the edge of the profile baffle 3, and starting a material clamping cylinder 1506 to drive the L-shaped lower pressing plate 1501 to compress the aluminum profile;

s3, 90-degree V-shaped cutting of the aluminum profile is performed, at the moment, the 90-degree V-shaped cutting knife is rotated to be in a to-be-cut state, a first rodless cylinder 409 is started to advance, a base plate 406 is driven to enable a cutting knife in the cutting base to move on a first track 4012 in parallel to cut the aluminum profile, and the first rodless cylinder 406 is started to retreat to the original position after the 90-degree V-shaped cutting of the aluminum profile is completed;

s4, angle bead cutting is performed, at the moment, a first air cylinder 601 of an angle bead cutting assembly 6 is started to drive an angle bead cutting knife 606 to vertically ascend out of the center line of a V-shaped opening of the aluminum profile through a second cutting notch 1011, and after the angle bead cutting is completed, the first air cylinder 601 is started to descend and the table top 1 is started;

S5, blanking, retracting and descending a material locking rod 1107; after the aluminum profile cutting process is completed, starting a parallel cylinder 1106 to enable a material locking rod 1107 to retract in parallel, simultaneously starting a first pressing cylinder 1202 to ascend to loosen the aluminum profile, then starting a lifting cylinder 1101 to enable the material locking rod 1107 to descend below a material locking slot of a table top 1, and starting a driving and reversing cylinder 1205 to enable a lower pressing plate 1208 to retract in parallel;

s6, feeding aluminum profiles; firstly, the lifting cylinder 1508 is started to lift, so that after the clamping lifting block 15010 lifts the aluminum profile under the pressure of the L-shaped lower pressure plate 1501, the third cylinder 9010 is started to push the clamped aluminum profile to the edge of the table top 1 integrally by using the track on one side of the mounting frame base 14 to the three groups of feeding assemblies 15. After the pushing is finished, the lifting cylinder 1508 is started to enable the clamping rising block 15010 to descend, the clamping cylinder 1506 is started to enable the L-shaped lower pressing plate 1501 to ascend, the second cylinder 908 and the third cylinder 9010 are started to retract the feeding component 15 together with the component mounting frame 9, and the cutting motor and other circuits are closed after the retraction;

s7, cutting the aluminum profile by the vertical cutting assembly 5, wherein the cutting process of the aluminum profile is less in corner protection, and the other cutting processes are almost the same.

The present invention is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present invention without departing from the technical content of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (8)

1. Integrative angle bead cutting continuous feeder, including mesa (1) and profile baffle (3) of setting on mesa (1), its characterized in that: the surface of the table top (1) is sequentially provided with a material protection notch (101), a feeding notch (102), a material locking notch (103), a material locking notch (104), a material feeding notch (105), a cutting notch (106), a material feeding notch (107), a material protection notch (108), a material locking notch (109), a material locking notch (1010), a cutting notch (1011), a material locking notch (1012), a material locking notch (1013) and a material protection notch (1014), a material pressing notch (1015), a material pressing notch (1016), a material pressing notch (1017), a waste notch (1018) and an electric circuit notch (1019), the table top (1) is provided with a profile baffle (3) which comprises a baffle plate (301), a baffle plate (302), a baffle plate (303), a baffle plate (304), a baffle plate (305) and a baffle plate (306), the section of the profile baffle plate (3) has the same width and the same center, the profile baffle plate is positioned on the same straight line, the table top (1) is provided with a cutting assembly (90V) and a cutting assembly (401) is arranged on the table top (4), the utility model is characterized in that the output shafts of cutting motors in the first cutting seat (401) and the second cutting seat (402) are respectively provided with a 45-degree cutting knife, the cutting knives in the first cutting seat (401) and the second cutting seat (402) are in a 90-degree V shape, one sides of the first cutting seat (401) and the second cutting seat (402) are fixed on an assembly lifting plate (403), the assembly lifting plate (403) is square four sheets, a screw rod lifter (4013) is arranged in the assembly lifting plate (403), the screw rod head of the screw rod lifter (4013) is fixedly connected with a base plate (406), the main body end surface of the screw rod lifter (4013) is connected to the inner side of the assembly lifting plate (403) through a bearing transverse plate (4014), an input shaft opening of the screw rod lifter (4013) is connected to a servo motor (4015) outside the assembly lifting plate (403), a lifting track piece (404) is arranged on the outer side of the three sides of the assembly lifting plate (403) far away from the cutting seat, a sliding block of the lifting track piece (403) is connected to a U-shaped base plate (405), the inner side of the lifting track piece (4013) is fixed on the U-shaped base plate (405) and the upper side plate (4012) is fixed on the base plate (406), the utility model discloses a motor angle protector, including base plate (406), angle protector (605) and angle protector (605) are installed to base plate (406) one side install connecting plate (407) and link to each other with No. one cylinder slider (408) on No. one rodless cylinder (409), no. one cylinder (409) both ends fixedly connected with L connecting piece (4010), L connecting piece (4010) are fixed on mesa (1), 90V cutting assembly (4) accessible track (4012) remove, 90V type cutting knife removes the central line through No. four baffle (304), no. five 90V mouthfuls between baffle (305) and with No. two cutting notch (1011) central lines are perpendicular parallel, angle protector cutting assembly (6) are set up to No. two cutting notch (1011) on mesa (1), angle protector cutting assembly (6) are including No. one cylinder (601), no. one cylinder (601) are installed perpendicularly on fixed plate (602), top connection on mesa (1) of fixed plate (602), output fixed plate (603) of No. one cylinder (601) have motor (603) to install angle protector (605), angle protector (605) are installed for slider (603), the corner protection cutting knife (606) is perpendicular to the lower part of the second cutting notch (1011).

2. The integral corner bead cutting continuous feeder of claim 1, wherein: set up perpendicular cutting assembly (5) on mesa (1), perpendicular cutting assembly (5) are including perpendicular cutting motor (502), perpendicular cutting knife (501) are installed to perpendicular cutting motor (502) output shaft, the one end at structural slab (503) is installed to perpendicular cutting motor (502), the two sides are installed No. two slider (504) on No. two track (505) under the bottom plate that perpendicular cutting motor (502) was kept away from to structural slab (503), no. two track (505) are installed and are fixed on mesa (1), keep away from the bottom plate of structural slab (503) is connected with No. two rodless cylinder (507) through No. two cylinder slider (506), no. two the both ends of No. two rodless cylinder (507) are fixed on mesa (1).

3. The integral corner bead cutting continuous feeder of claim 2, wherein: a feeding slot (102), a second feeding slot (105) and a third feeding slot (107) are formed in the table top (1), a feeding assembly (15), an assembly mounting rack (9) and a mounting rack seat (14) are arranged below the feeding slot, the assembly mounting rack (9) comprises a supporting bottom rod (901), a first assembly mounting plate (904), a second assembly mounting plate (902) and a third assembly plate (903) are vertically fixed on the supporting bottom rod (901) from left to right in sequence, a feeding sliding block (905) is mounted on the outer side of the first assembly mounting plate (904), a frame transverse plate (907) is horizontally connected between the second assembly mounting plate (902) and the third assembly plate (903), a second cylinder (908) is mounted on the frame transverse plate (907), a body of the second cylinder (908) is fixedly connected to the frame transverse plate (907), a guide rod fixing plate of the second cylinder (908) is in butt joint with a first fixing plate (909) of the third cylinder (9010), the third cylinder (10) is mounted on the upper top surface of the feeding rack (906) and the lower end surface of the table top (906) of the third cylinder (9010) is fixedly connected with the frame plate (906);

The mounting frame base (14) comprises a first mounting frame base (1401), a second mounting frame base (1402) and a third mounting frame base (1403), the first mounting frame base (1401), the second mounting frame base (1402) and the third mounting frame base (1403) are respectively connected with a first component mounting plate (904), a second component mounting plate (902) and a third component mounting plate (903) through rails, two groups of first feeding rails (1404) are arranged on one side of the first mounting frame base (1401), the first feeding rails (1404) are connected with feeding sliding blocks (905) on one side of the first component mounting plate (904), the second feeding rails (1405) on one side of the second mounting frame base (1402) are connected with the second component mounting plate (902) through sliding blocks, and the second feeding rails (1405) on one side of the third mounting frame base (1403) are connected with the third component mounting plate (903) through sliding rails;

the feeding component (15) is respectively arranged on one side, far away from the track, of a first component mounting plate (904), a second component mounting plate (902) and a third component plate (903) in the component mounting frame (9), the feeding component (15) comprises an L-shaped lower pressure plate (1501), a fourth component mounting plate (1504), a clamping cylinder (1506), a travel switch (1507) and a lifting cylinder (1508), the lower pressure plate (1501) is connected with a clamping track (1502), a clamping slider (1503) on the clamping track (1502) is arranged on one side of the fourth component mounting plate (1504), a first output fixed end (1505) of the clamping cylinder (1506) is fixedly connected with the middle part of the L-shaped lower pressure plate (1501), a clamping cylinder (1506) body and a lifting cylinder (1508) body are respectively arranged on two sides of the fourth component mounting plate (1504), a first clamping plate (1509) and a second clamping plate (15011) are fixedly arranged on the top of a guide rod of the lifting cylinder (1508), a first clamping plate (1509) and a second clamping plate (1509) are held on the same level with a top of a feeding table top (10), the lower pressing plate (1501) is correspondingly arranged above the first feeding notch (102) and the table top (1), the travel switch (1507) is arranged on the fourth component plate (1504), the L-shaped lower pressing plate (1501) vertically ascends and descends through the clamping cylinder (1506), and the clamping ascending block (15010) vertically ascends through the lifting cylinder (1508).

4. The integral corner bead cutting continuous feeder of claim 3, wherein: the utility model provides a material locking notch (103) that mesa (1) was seted up, no. two material locking notch (104) are a set of, no. three material locking notch (109), no. four material locking notch (1010) are a set of, no. five material locking notch (1012), no. six material locking notch (1013) are a set of, and the below of every group all sets up a set of material locking subassembly (11), material locking subassembly (11) are including lift cylinder (1101), lift cylinder (1101) guide arm fixed plate and mesa (1) lower terminal surface installation are fixed, lift cylinder (1101) cylinder body installs perpendicular rising plate (1102) in, parallel cylinder (1106) are installed to rising plate (1102) lower part, rising plate (1102) upper portion is provided with slider fixing base (1103), slider fixing base (1103) are installed on parallel slider (1104), parallel slider (1104) are connected with parallel cylinder (1106) output fixed plate with the one end of parallel track (1105), parallel slider (1104) other end installation lock pole (1107), lock pole (1107) are through perpendicular removal in the perpendicular cylinder (1107) of lock pole (1107) through perpendicular removal of lock pole (1107).

5. The integral corner bead cutting continuous feeder of claim 4, wherein: the lower part of a first pressing notch (1015), a second pressing notch (1016) and a third pressing notch (1017) formed in the table top (1) is respectively provided with a pressing component (12), the pressing component (12) comprises a first pressing cylinder (1201) and a feeding and retreating cylinder (1205), the cylinder body of the first pressing cylinder (1201) is provided with a feeding and retreating movable sliding block (1202) to a feeding and retreating track (1203) through a connecting piece (1206), the feeding and retreating track (1203) is provided with a vertical connecting plate (1204), the top end of the vertical connecting plate (1204) is fixed on the lower end face of the table top (1), the guide rod fixing plate of the advance and retreat cylinder (1205) is connected with the first lower pressing cylinder (1201) through a connecting piece (1206), a lower pressing plate (1208) is arranged on a first output fixing plate (1207) of the first lower pressing cylinder (1201), the first output fixing plate (1207) and the lower pressing plate (1208) vertically extend out of a second lower pressing groove opening (1016) in the table top (1), and the lower pressing plate (1208) is parallel to advance and retreat through the advance and retreat cylinder (1205) and vertically ascends and descends through the first lower pressing cylinder (1201).

6. The integral corner bead cutting continuous feeder of claim 5, wherein: the utility model discloses a material protection device, including mesa (1), material protection cylinder body, material protection seat board, top of material protection seat board (1305) is fixed in the below of mesa (1), the top of running roller (1301) is located the running roller notch and is less than the notch up end, running roller (1301) are gone up and down perpendicularly through material protection cylinder (1304) at u type spare (1302) are installed at the both ends of running roller (1301), material protection cylinder guide arm fixed plate (1303) on u type spare (1302) and material protection cylinder (1304), the cylinder body of material protection cylinder (1304) is installed perpendicularly in material protection seat board (1305), the top of material protection seat board (1305) is fixed in the below of mesa (1).

7. The integral corner bead cutting continuous feeder of claim 6, wherein: the utility model discloses a waste collection box, including waste collection box (701) and aluminium bits dust bag (702), waste collection box (1018) are provided with waste collection subassembly (7) below waste collection box (1018), inner structure is kept away from in the below of electric circuit notch (1019) that mesa (1) was seted up in the equipment outside setting up electric box subassembly (16), waste collection subassembly (7) are including waste collection box (701) and aluminium bits dust bag (702), waste collection box (701) square upper end installation is connected at waste collection box (1018) medial edge, the outside of waste collection box (701) is located in aluminium bits dust bag (702), and the tuber pipe is connected into through waste collection box (701) one side trompil, waste collection box (701) below outside is equipped with waste outlet door plant (703), electric circuit notch (1019) below is used for required electric circuit control element of the required power of equipment in the box body installation of electric box subassembly (16) of 90 degrees V cutting subassembly (4) and perpendicular cutting assembly (5).

8. The integral corner bead cutting continuous feeder of claim 3, wherein: the novel table is characterized in that stand columns (8) are arranged around the lower portion of the table top (1), column transverse pull (2) are arranged around the lower end of the table top (1), column transverse pull (2) are provided with column transverse plates (10), and a first mounting frame seat (1401), a second mounting frame seat (1402), a third mounting frame seat (1403) and a third mounting frame seat are vertically arranged on the fixed plate (602).