CN116618747A - Cutting device is used in electric scooter frame processing - Google Patents

Abstract

The utility model provides a cutting device for processing an electric scooter frame, which relates to the technical field of electric scooter processing and comprises: the device comprises a bearing plate, an adjusting device and a supporting frame; the adjusting device is arranged on the ground and is positioned on the right sides of the two groups of bearing plates; the support frame is arranged at the upper end of the adjusting device; according to the utility model, the motor III is controlled to drive the shaft rod II to rotate through the gear box, so that the conveying belts on the shaft rod II are driven to realize the conveying of the frame, the spring plate on the top frame is used for assisting in fixing the frame during conveying, the shaft rod III can be driven to rotate while the gear box output shaft rotates, when the saw blade cuts the frame, generated scraps can fall onto the conveying belt, the scraps are conveyed through the driving of the conveying belt, the collection and cleaning of the scraps are realized, the use is convenient, the dust collecting plate can prevent the scraps from falling off from the conveying belt, and the bearing capacity of the conveying belt can be improved.

Description

Cutting device is used in electric scooter frame processing

Technical Field

The utility model relates to the technical field of electric scooter machining, in particular to a cutting device for electric scooter frame machining.

Background

The electric scooter is the novel product form of the motion of still another slide after traditional slide, and electric scooter ten minutes energy saving charges fast and the course ability is long, and whole car handsome in appearance, convenient operation, the driving is safer, when electric scooter produces, cuts the frame through needs, and this just needs frame cutting device to realize the cutting work to frame cutting, so needs to use a cutting device for electric scooter frame processing.

The application number is as follows: in the patent of CN201921667079.8, a cutting device for electric scooter frame processing is disclosed, its structure includes the cutting box, the interior top surface central point of cutting box puts and has the cylinder through the fix with screw, and the output of cylinder has the mounting panel through the fix with screw, the downside of mounting panel is fixed with the cutting machine, and the cylinder both sides all are provided with the clamp box, and clamp box all fixes on the interior top surface of cutting box, all be provided with regulating plate and stripper plate in the clamp box, and the stripper plate is located one side that is close to the cylinder, the mounting groove has still been seted up to clamp box upper and lower end inner wall, the upper and lower end of regulating plate and stripper plate all is fixed with the installation piece, the stripper plate is close to regulating plate one end and all is fixed with the cylinder. According to the utility model, the driving cylinder is fixed during cutting, so that loosening of fixed parts is well avoided, and the two sides of the cutting part of the frame are fixed during cutting, so that the cutting machine is ensured to run more stably, and the cutting quality of the frame is ensured.

The cutting device for processing the frame of the existing electric scooter has the advantages of simple structure, poor fixing degree of the frame and inconvenient scrap cleaning generated during cutting.

Disclosure of Invention

In view of the above, the utility model provides a cutting device for processing an electric scooter frame, which is characterized in that a second motor is controlled to drive a first shaft connecting rod to rotate through a belt when in use, so that a saw blade on the first shaft connecting rod rotates, a third motor is controlled to drive a second shaft connecting rod to rotate through a gear box, so that conveying belts on two groups of second shaft connecting rods are driven, the frame is conveyed, the frame is fixed in an auxiliary manner through a spring plate on a top frame during conveying, a conveying belt is arranged between the third shaft connecting rod and the fourth shaft connecting rod while an output shaft of the gear box rotates, the conveying belt is positioned under the saw blade, when the saw blade cuts the frame, generated waste can fall onto the conveying belt, the waste is conveyed through the transmission of the conveying belt, the collection and cleaning of the waste are realized, the dust collecting plate can be prevented from falling off from the conveying belt, and the bearing capacity of the conveying belt can be improved.

The utility model provides a purpose and an effect of a cutting device for processing an electric scooter frame, which specifically comprise the following steps: the device comprises a bearing plate, an adjusting device and a supporting frame; the bearing plates are provided with two groups, the lower ends of the two groups of bearing plates are respectively provided with two groups of feet, the two groups of bearing plates are provided with supporting rods through bolts, the upper ends of the two groups of supporting rods are connected with bearing rollers in a shaft mode, the two groups of bearing plates are welded with U-shaped frames, the U-shaped frames are fixedly provided with two groups of cross bars, the upper ends of the two groups of cross bars are provided with a first sliding rail through bolts, the first sliding rail is provided with two groups of sliding plates in a sliding mode, the sliding plates are provided with two groups of shaft connecting frames through bolts, the shaft connecting frames are connected with positioning rollers in a shaft mode, the two groups of U-shaped frames are connected with screws in a shaft mode, the front end and the rear end of each screw are provided with threads in opposite rotation directions, the front end and the rear end of each screw are respectively matched with the lower ends of the two groups of sliding plates, and the rear end of each screw is provided with a first hand wheel; the adjusting device is arranged on the ground and is positioned on the right sides of the two groups of bearing plates; the support frame is installed in adjusting device's upper end.

Further, two groups of supporting legs are respectively arranged on the U-shaped frames through bolts, shaft connecting plates are fixed on the supporting legs, two groups of conveying rollers are connected to the shaft connecting plates in a shaft mode, grooves are formed in the conveying rollers, and supporting plates are arranged on the two groups of shaft connecting plates through screws.

Further, two groups install the bottom block on the bearing plate, two groups of spandrel posts are installed through the bolt to the upper end of bottom block, and the upper end of two groups of spandrel posts is fixed with two groups of back timber, is equipped with logical groove between two groups of back timber, and the coupling has a board between two groups of back timber, and articulated seat is installed through the bolt to two groups of back timber upper ends, installs a hydraulic rod on the articulated seat, and the flexible end and the upper end rotation of a board of hydraulic rod are connected.

Further, two sets of the shaft joint has No. two boards between the back timber, installs No. three boards between No. one board and the No. two boards to No. four boards and No. five boards of front and back end difference shaft joint of No. three boards, no. four boards and No. five boards's lower extreme is installed the clamp plate, and three sets of mount pad are installed through the bolt to the lower extreme of clamp plate, and the coupling has the rotating turret on the mount pad, and the compression roller is installed to the lower extreme of rotating turret to install the extension spring between mount pad and the rotating turret, and install the riding block through the bolt on the backing block.

Further, be close to be fixed with the support on the back timber of spandrel post left end, install No. two hydraulic stems on the support, the lower extreme of support is equipped with No. six boards through the bolt, is equipped with the screw hole on No. six boards, installs four sets of bolts on the support, and the lower extreme screw thread of bolt is screwed up the screw hole on No. six boards, installs the fly leaf on four sets of bolts, and the upper end of fly leaf is connected with the flexible end of No. two hydraulic stems to install the spring on the bolt, the spring is located the below of fly leaf.

Further, the front and back ends of the No. six plates are provided with side plates through bolts, driving rollers are connected between the two groups of side plates in a shaft mode, belt pulleys are arranged at the rear ends of the driving rollers, fixing plates are arranged on the side plates close to the rear ends of the No. six plates, a motor is arranged on the fixing plates through bolts, belt pulleys are arranged on rotating shafts of the motor, connecting belts are arranged between the two groups of belt pulleys, and the driving rollers are located above the two groups of conveying rollers.

Further, adjusting device includes bottom plate, guide pillar and lifter plate, four groups of lower extreme of bottom plate is installed, the guide pillar is equipped with four groups, four groups of guide pillar pass through the bolt mounting on the bottom plate, the lifter plate slides on four groups of guide pillar, slide on the bottom plate has the riser, the screw thread piece is installed to the left end of riser, the coupling has the lead screw on the bottom plate, lead screw and screw thread piece screw-thread fit, no. two hand wheels are installed to the front end of lead screw, no. two slide rails are installed through the bolt on the right side of riser, no. two slide rails slope is installed on the riser, the extension board is installed through the bolt to the lower extreme of lifter plate, no. two slide rail sliding connection on extension board and the riser, the support frame is installed on the lifter plate.

Further, the support frame is connected with a first shaft connecting rod in a shaft mode, a saw blade is installed on the first shaft connecting rod, a mounting plate is connected with the support frame in a shaft mode, a second motor is installed on the mounting plate through bolts, the second motor is connected with the first shaft connecting rod through a belt, the support frame is connected with two groups of second shaft connecting rods in a shaft mode, a conveying belt is installed on the two groups of second shaft connecting rods, a gear box is installed on the support frame through bolts, a third motor is installed on the gear box, and an output shaft of the gear box is connected with the second shaft connecting rod close to the left end of the support frame through a connecting belt.

Further, the support frame is connected with a third shaft connecting rod in a shaft mode, two groups of support arms are fixed at the right end of the support frame, a sleeve is installed on each support arm, a waist-shaped groove is formed in each sleeve, bolts are fixed on the sleeves, square plates are fixed on the support arms, the bolts on the sleeves are installed on the square plates, a bearing seat is installed on each sleeve, a fourth shaft connecting rod is installed on each bearing seat, a material conveying belt is installed between each third shaft connecting rod and each fourth shaft connecting rod, and each third shaft connecting rod is connected with an output shaft of the gear box through a connecting belt.

Further, the overhead frame is installed through the bolt on the support frame, installs the spring board on the overhead frame, and the backplate is installed to the left end of support frame, and the dust collecting plate is installed through the bolt to the front and back end of support frame, and the dust collecting plate is located the below of defeated material area.

Advantageous effects

According to the utility model, the support frame is connected with the third shaft connecting rod in a shaft way, the right end of the support frame is fixedly provided with the two groups of support arms, the support arms are provided with the sleeves, the sleeves are provided with the waist-shaped grooves, the sleeves are fixedly provided with the bolts, the support arms are fixedly provided with square plates, the bolts on the sleeves are arranged on the square plates, the bearing seat is provided with the fourth shaft connecting rod, a conveying belt is arranged between the third shaft connecting rod and the fourth shaft connecting rod, the left end of the support frame is provided with the guard plate, the front end and the rear end of the support frame are provided with the dust collecting plates through the bolts, the dust collecting plates are arranged below the conveying belt, the second motor is controlled to drive the first shaft connecting rod to rotate through the belt, the third motor is controlled to drive the second shaft connecting rod to rotate through the gear box, the conveying belt on the two groups of second shaft connecting rods is driven to realize the conveying of the frame, the conveying belt on the conveying belt of the frame is realized, the spring plate on the top frame is used for auxiliary fixing, the gear box output shafts rotate, the third shaft connecting rod can rotate, the guard plate is arranged between the third shaft connecting rod and the fourth shaft connecting rod can drive the conveying belt to rotate, the conveying belt can conveniently clean the conveying belt, and the waste material can fall from the conveying belt can be prevented from falling down, and the conveying belt can be arranged, and the waste material can be conveniently prevented from falling from the conveying belt.

In addition, two groups of cross bars are fixed on the U-shaped frame, sliding rails are arranged at the upper ends of the two groups of cross bars through bolts, two groups of sliding plates are arranged on the sliding rails in a sliding mode, two groups of shaft connecting frames are arranged on the sliding plates through bolts, positioning rollers are connected to the shaft connecting frames in a shaft connecting mode, screw rods are connected to the two groups of U-shaped frames in a shaft connecting mode, threads with opposite rotation directions are arranged at the front end and the rear end of the screw rods, the front end and the rear end of the screw rods are respectively matched with the threads at the lower ends of the two groups of sliding plates, a first hand wheel is arranged at the rear end of the screw rods, the screw rods can be rotated by rotating the first hand wheel, and the two groups of sliding plates are made to be close to or far away from each other, so that the positioning rollers position a frame, and position deviation in the frame conveying process are prevented.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the utility model and are not intended to limit the utility model.

In the drawings:

fig. 1 is a schematic diagram of the overall structure of a cutting device for processing an electric scooter frame according to an embodiment of the present utility model.

Fig. 2 is a schematic structural view of a U-shaped frame of a cutting device for processing an electric scooter frame according to an embodiment of the present utility model.

Fig. 3 is an enlarged schematic view of the cutting device for processing the frame of the electric scooter according to the embodiment of the present utility model at a position in fig. 2.

Fig. 4 is a schematic structural view of a bearing post of a cutting device for processing an electric scooter frame according to an embodiment of the present utility model.

Fig. 5 is an enlarged schematic view of the cutting device for processing the frame of the electric scooter according to the embodiment of the present utility model shown in fig. 4 at B.

Fig. 6 is a schematic structural view of a support of a cutting device for processing an electric scooter frame according to an embodiment of the present utility model.

Fig. 7 is a schematic structural view of an adjusting device of a cutting device for processing an electric scooter frame according to an embodiment of the present utility model.

Fig. 8 is a schematic structural view of a supporting frame of a cutting device for processing an electric scooter frame according to an embodiment of the present utility model.

Fig. 9 is a schematic view of a right end of a supporting frame of a cutting device for processing an electric scooter frame according to an embodiment of the present utility model.

Fig. 10 is an enlarged schematic view of the cutting device for electric scooter frame processing in fig. 9C according to the embodiment of the present utility model.

List of reference numerals

1. A bearing plate; 11. a support rod; 12. a receiving roller; 13. a U-shaped frame; 131. a cross bar; 132. a first slide rail; 133. a sliding plate; 134. a shaft connecting frame; 135. a positioning roller; 136. a screw; 137. a first hand wheel; 138. support legs; 1381. a shaft connecting piece; 1382. a conveying roller; 1383. a supporting plate; 14. a bearing column; 141. a bottom block; 142. a support block; 143. a top beam; 1431. a first plate; 1432. a hinge base; 1433. a hydraulic lever number one; 1434. a second plate; 1435. a fourth plate; 1436. a fifth plate; 1437. a third plate; 144. a pressing plate; 1441. a mounting base; 1442. a rotating frame; 1443. a press roller; 1444. a tension spring; 145. a support; 1451. a second hydraulic rod; 1452. a sixth plate; 1453. a movable plate; 1454. a side plate; 1455. a driving roller; 1456. a fixing piece; 1457. a motor I; 2. an adjusting device; 21. a bottom plate; 211. a riser; 212. a screw block; 213. a screw rod; 214. a second hand wheel; 22. a guide post; 23. a lifting plate; 231. a support plate; 2311. a second slide rail; 3. a support frame; 31. a first shaft connecting rod; 311. a saw blade; 32. a mounting plate; 321. a motor II; 33. a second shaft connecting rod; 331. a conveyor belt; 34. a gear box; 341. a third motor; 342. a third shaft connecting rod; 343. a fourth shaft connecting rod; 3431. a support arm; 3432. a sleeve; 3433. a bearing seat; 3434. a square plate; 344. a material conveying belt; 35. a dust collecting plate; 36. a guard board; 37. a top frame; 371. and (3) a spring plate.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiments of the present utility model.

Examples: please refer to fig. 1 to 10:

the utility model provides a cutting device for processing an electric scooter frame, which comprises a bearing plate 1, an adjusting device 2 and a supporting frame 3; the bearing plates 1 are provided with two groups, the lower ends of the two groups of bearing plates 1 are respectively provided with two groups of feet, the two groups of bearing plates 1 are provided with supporting rods 11 through bolts, the upper ends of the two groups of supporting rods 11 are respectively in threaded fit with the lower ends of the two groups of sliding plates 133, U-shaped frames 13 are respectively welded with U-shaped frames 13, two groups of transverse rods 131 are fixedly arranged on the U-shaped frames 13, a first sliding rail 132 is arranged at the upper ends of the two groups of transverse rods 131 through bolts, two groups of sliding plates 133 are slidably arranged on the first sliding rail 132, two groups of shaft connecting frames 134 are arranged on the sliding plates 133 through bolts, positioning rollers 135 are connected on the shaft connecting frames 134 in a shaft mode, screw rods 136 are connected on the front end and the rear end of the screw rods 136 in a threaded fit with the lower ends of the two groups of sliding plates 133 respectively, a first 137 is arranged at the rear end of the screw rods 136, two groups of U-shaped frames 13 are respectively provided with two groups of supporting legs 138 through bolts, a shaft hand wheel 1381 is fixedly arranged on the supporting legs 1381, two groups of conveying rollers 1383 are connected with two groups of conveying rollers 1383 in a shaft connecting pieces; the adjusting device 2 is arranged on the ground, and the adjusting device 2 is positioned on the right sides of the two groups of bearing plates 1; the support frame 3 is mounted at the upper end of the adjusting device 2.

Wherein, install the bottom block 141 on two sets of bearing plates 1, install two sets of bearing posts 14 through the bolt in the upper end of bottom block 141, the upper end of two sets of bearing posts 14 is fixed with two sets of roof beams 143, be equipped with logical groove between two sets of roof beams 143, the coupling has a board 1431 between two sets of roof beams 143, articulated seat 1432 is installed through the bolt in two sets of roof beams 143 upper ends, install a hydraulic stem 1433 on the articulated seat 1432, the flexible end of a hydraulic stem 1433 rotates with the upper end of a board 1431 to be connected, the coupling has a board 1434 between two sets of roof beams 143, install No. three boards 1437 between a board 1431 and the board 1434, and No. four boards 1435 and No. five boards 1436 have been installed to the front and back end of No. three boards 1437 respectively, the clamp plate 144 is installed to the lower extreme of clamp plate 1435, three sets of mount blocks 1441 are installed through the bolt, install three sets of mount blocks 1441 on mount blocks 1441, install the lower end of a rotating frame 1442 and install the function of press roll blocks 1444 through the bolt 1442, install the bottom block 1444 between the rotating frame 1442 and the press roll blocks 1444. The first plate 1431 can be rotated anticlockwise by controlling the extension of the first hydraulic rod 1433, so that the height of the pressing plate 144 is controlled to descend, the frame on the supporting block 142 is pressed downwards through the pressing roller 1443, the stability of the frame is improved, and the tension spring 1444 plays a buffering role.

Wherein, be close to be fixed with support 145 on the back timber 143 of spandrel post 14 left end, install No. two hydraulic levers 1451 on the support 145, install No. six boards 1452 through the bolt in the lower extreme of support 145, be equipped with the screw hole on No. six boards 1452, install four sets of bolts on the support 145, the lower extreme screw thread of bolt is screwed in the screw hole on No. six boards 1452, install fly leaf 1453 on four sets of bolts, the upper end of fly leaf 1453 is connected with the flexible end of No. two hydraulic levers 1451, and install the spring on the bolt, the spring is located the below of fly leaf 1453, the curb plate 1454 is installed through the bolt to the front and back end of No. six boards 1452, the coupling has driving roller 1455 between two sets of curb plates 1454, the rear end of driving roller 1455 installs the belt pulley, and install stationary blade 1456 on the curb plate 1454 that is close to No. six boards 1452 rear end, install No. one motor 1457 through the bolt on the stationary blade 1456, install the belt pulley in the pivot of No. one motor 1457, install the connecting band between two sets of belt pulleys, driving roller 5 is located two sets of driving roller 2 and is that it is above: the second hydraulic rod 1451 is controlled to extend to enable the height of the driving roller 1455 to be lowered, the driving roller 1455 is pressed down on the two groups of conveying rollers 1382, and the rotation of the driving roller 1455 is achieved by controlling the rotation of the first motor 1457, so that the frame can be conveyed.

The adjusting device 2 comprises a bottom plate 21, guide columns 22 and a lifting plate 23, four groups of foundation legs are arranged at the lower end of the bottom plate 21, four groups of guide columns 22 are arranged on the bottom plate 21 through bolts, the lifting plate 23 slides on the four groups of guide columns 22, a vertical plate 211 slides on the bottom plate 21, a threaded block 212 is arranged at the left end of the vertical plate 211, a lead screw 213 is connected to the bottom plate 21 in a shaft mode, the lead screw 213 is in threaded fit with the threaded block 212, a second hand wheel 214 is arranged at the front end of the lead screw 213, a second sliding rail 2311 is arranged at the right side of the vertical plate 211 through bolts, a second sliding rail 2311 is obliquely arranged on the vertical plate 211, a supporting plate 231 is arranged at the lower end of the lifting plate 23 through bolts, the supporting plate 231 is in sliding connection with the second sliding rail 2311 on the vertical plate 211, and the supporting frame 3 is arranged on the lifting plate 23 and has the functions that: the front and back positions of the vertical plate 211 can be adjusted by rotating the second hand wheel 214, so that the sliding rail on the vertical plate 211 moves back and forth, and the height of the lifting plate 23 is adjusted.

8-10, as shown in fig. 8-10, the first shaft connecting rod 31 is connected to the support frame 3 in a shaft way, the saw blade 311 is installed on the first shaft connecting rod 31, and the mounting plate 32 is connected to the support frame 3 in a shaft way, the second motor 321 is installed on the mounting plate 32 through bolts, the second motor 321 is connected to the first shaft connecting rod 31 through belts, and the support frame 3 is connected to the second shaft connecting rod 33 in a shaft way, the conveyor belt 331 is installed on the second shaft connecting rod 33 in a shaft way, the gear box 34 is installed on the gear box 34, the output shaft of the gear box 34 is connected to the second shaft connecting rod 33 near the left end of the support frame 3 through a connecting belt, the third shaft connecting rod 342 is connected to the support frame 3 in a shaft way, and the right end of the support frame 3 is fixed with the second shaft connecting rod 3431, the sleeve 3432 is installed on the support arm 3431, the waist-shaped groove is formed in the sleeve 3432, the bolt is fixed on the sleeve 3432, the square plate 3434 is fixed on the support arm 3431, the bolt is installed on the square plate 3434, the bearing seat 3433 is installed on the sleeve 3432, the bearing seat 3433 is installed on the square plate 3433, the fourth shaft connecting rod 342 is connected to the output shaft 343 through the connecting rod 342, and the fourth shaft connecting rod 342 is connected to the fourth shaft connecting rod 342 through the connecting rod 342, and the fourth shaft connecting rod is connected to the fourth shaft connecting rod through the connecting rod 34. The motor 321 is controlled to drive the shaft connecting rod 31 to rotate through the belt, so that the saw blade 311 on the shaft connecting rod 31 rotates, the motor 341 is controlled to drive the shaft connecting rod 33 to rotate through the gear box 34, the conveying belt 331 on the shaft connecting rod 33 is driven to drive two groups of conveying belts 331, the conveying of a frame is realized, when the saw blade 311 cuts the frame, generated scraps can fall onto the conveying belt 344, the scraps are conveyed through the conveying belt 344, and the collection and cleaning of the scraps are realized.

In the third embodiment, as shown in fig. 9, a top frame 37 is mounted on the supporting frame 3 through bolts, a spring plate 371 is mounted on the top frame 37, a guard plate 36 is mounted at the left end of the supporting frame 3, dust collecting plates 35 are mounted at the front and rear ends of the supporting frame 3 through bolts, and the dust collecting plates 35 are located below the material conveying belt 344, and the functions are as follows: the frame is fixed in an auxiliary manner by the spring plate 371 on the top frame 37, and the dust collecting plate 35 is arranged to prevent scraps from falling from the material conveying belt 344 and to improve the carrying capacity of the material conveying belt 344.

Specific use and action of the embodiment: according to the utility model, the frame is placed on two groups of conveying rollers 1382, the first plate 1431 can be rotated anticlockwise by controlling the extension of the first hydraulic rod 1433, so that the height of the pressing plate 144 is controlled to be lowered, the frame on the supporting block 142 is pressed down by the pressing roller 1443, the stability of the frame is improved, the tension spring 1444 plays a role of buffering, the extension of the second hydraulic rod 1451 is controlled to enable the height of the driving roller 1455 to be lowered, the driving roller 1455 is enabled to be pressed down on the two groups of conveying rollers 1382, the rotation of the driving roller 1455 is achieved by controlling the rotation of the first motor 1457, the frame can be conveyed, the front and back positions of the vertical plate 211 can be adjusted by rotating the second hand wheel 214, the sliding rail on the vertical plate 211 can be moved forwards and backwards, the height of the lifting plate 23 can be adjusted, the saw blade 311 on the first shaft 31 is driven to rotate by controlling the second motor 321 through a belt, the saw blade 311 on the first shaft 31 is enabled to rotate by controlling the third motor 341 to drive the second shaft connecting rod 33 to rotate through the gear box 34, the second shaft connecting rod 33 is enabled to be pressed down on the conveying belt of the second shaft connecting rod, the two groups of the conveying belt 33 is enabled to rotate, the waste chips can be prevented from falling down from the frame through the conveying belt of the second motor connecting rod 33, and the waste chips can be cut off the frame can be prevented from being conveyed by the supporting belt 344, and the waste chips can be conveyed to the supporting belt 35, and can be prevented from falling from the waste chips being conveyed to the frame to the supporting belt 344.

Claims (10)

1. Cutting device is used in electric scooter frame processing, characterized in that includes: the device comprises a bearing plate (1), an adjusting device (2) and a supporting frame (3); the bearing plates (1) are provided with two groups, the lower ends of the two groups of bearing plates (1) are respectively provided with two groups of feet, the two groups of bearing plates (1) are provided with supporting rods (11) through bolts, the upper ends of the two groups of supporting rods (11) are connected with bearing rollers (12) in a shaft mode, the two groups of bearing plates (1) are welded with U-shaped frames (13), the U-shaped frames (13) are fixedly provided with two groups of cross bars (131), the upper ends of the two groups of cross bars (131) are provided with a first sliding rail (132) through bolts, the first sliding rail (132) is provided with two groups of sliding plates (133) in a sliding mode, the sliding plates (133) are provided with two groups of shaft connecting frames (134) through bolts in a shaft mode, the shaft connecting frames (134) are connected with positioning rollers (135) in a shaft mode, the front end and the rear end of each screw rod (136) are provided with threads in opposite rotation directions, the front end and the rear end of each screw rod (136) are respectively in threaded fit with the lower ends of the two groups of the sliding plates (133), and the rear end of each screw rod (136) is provided with a first hand wheel (137); the adjusting device (2) is arranged on the ground, and the adjusting device (2) is positioned on the right sides of the two groups of bearing plates (1); the supporting frame (3) is arranged at the upper end of the adjusting device (2).

2. The cutting device for electric scooter frame processing according to claim 1, wherein: two groups of U-shaped frames (13) are respectively provided with two groups of supporting legs (138) through bolts, the supporting legs (138) are fixedly provided with shaft connecting pieces (1381), the shaft connecting pieces (1381) are axially connected with two groups of conveying rollers (1382), grooves are formed in the conveying rollers (1382), and supporting plates (1383) are arranged on the two groups of shaft connecting pieces (1381) through bolts.

3. The cutting device for electric scooter frame processing according to claim 1, wherein: two sets of install the bottom block (141) on bearing plate (1), two sets of spandrel posts (14) are installed through the bolt to the upper end of bottom block (141), the upper end of two sets of spandrel posts (14) is fixed with two sets of back timber (143), be equipped with logical groove between two sets of back timber (143), the articulated seat (1432) is installed through the bolt to two sets of back timber (143) upper ends, install hydraulic rod (1433) on articulated seat (1432), the flexible end of hydraulic rod (1433) is connected with the upper end rotation of plate (1431).

4. A cutting device for electric scooter frame processing according to claim 3, wherein: the upper end of the upper beam (143) is provided with a first plate (1434), a second plate (1431) and a third plate (1437) are arranged between the first plate (1431) and the second plate (1434), the front end and the rear end of the first plate (1437) are respectively connected with a fourth plate (1435) and a fifth plate (1436) in a shaft mode, the lower ends of the fourth plate (1435) and the fifth plate (1436) are provided with pressing plates (144), the lower ends of the pressing plates (144) are provided with three groups of mounting seats (1441) through bolts, the mounting seats (1441) are connected with rotating frames (1442) in a shaft mode, the lower ends of the rotating frames (1442) are provided with pressing rollers (1443), tension springs (1444) are arranged between the mounting seats (1441) and the rotating frames (1442), and supporting blocks (142) are arranged on bottom blocks (141) through bolts.

5. A cutting device for electric scooter frame processing according to claim 3, wherein: be close to be fixed with support (145) on back timber (143) of spandrel post (14) left end, install No. two hydraulic rods (1451) on support (145), install No. six boards (1452) through the bolt in the lower extreme of support (145), be equipped with the screw hole on No. six boards (1452), install four bolt groups on support (145), the lower extreme screw thread of bolt is screwed in the screw hole on No. six boards (1452), install fly leaf (1453) on four bolt groups, the upper end of fly leaf (1453) is connected with the flexible end of No. two hydraulic rods (1451) to install the spring on the bolt, the spring is located the below of fly leaf (1453).

6. The cutting device for electric scooter frame processing according to claim 5, wherein: the front end and the rear end of the No. six plate (1452) are provided with side plates (1454) through bolts, a driving roller (1455) is connected between the two groups of side plates (1454) in a shaft mode, a belt pulley is arranged at the rear end of the driving roller (1455), a fixing sheet (1456) is arranged on the side plate (1454) close to the rear end of the No. six plate (1452), a motor (1457) is arranged on the fixing sheet (1456) through bolts, a belt pulley is arranged on a rotating shaft of the motor (1457), a connecting belt is arranged between the two groups of belt pulleys, and the driving roller (1455) is located above the two groups of conveying rollers (1382).

7. The cutting device for electric scooter frame processing according to claim 1, wherein: the adjusting device (2) comprises a bottom plate (21), guide columns (22) and a lifting plate (23), four groups of feet are arranged at the lower end of the bottom plate (21), four groups of guide columns (22) are arranged on the bottom plate (21) through bolts, the lifting plate (23) slides on the four groups of guide columns (22), a vertical plate (211) slides on the bottom plate (21), a threaded block (212) is arranged at the left end of the vertical plate (211), a screw rod (213) is connected to the bottom plate (21) in a shaft mode, the screw rod (213) is in threaded fit with the threaded block (212), a No. two hand wheel (214) is arranged at the front end of the screw rod (213), a No. two slide rail (2311) is arranged on the right side of the vertical plate (211) through bolts in a tilting mode, a support plate (231) is arranged at the lower end of the lifting plate (23) through bolts, and the support plate (231) is connected with a No. two slide rail (2311) on the vertical plate (211).

8. The cutting device for electric scooter frame processing according to claim 7, wherein: the utility model discloses a motor, including support frame (3), connecting rod (31) of the axle is gone up to the epaxial saw bit (311) of installing on connecting rod (31) of the axle to install mounting panel (32) on support frame (3), install No. two motors (321) through the bolt on mounting panel (32), no. two motors (321) are connected with connecting rod (31) of the axle through the belt, and the epaxial joint of support frame (3) has two sets of connecting rods (33) of No. two, install conveyer belt (331) on connecting rod (33) of No. two sets of, install gear box (34) through the bolt on support frame (3), install No. three motors (341) on gear box (34), the output shaft of gear box (34) is connected with connecting rod (33) of No. two that are close to support frame (3) left end through the connecting band.

9. The cutting device for electric scooter frame processing according to claim 8, wherein: the support frame (3) is connected with a third shaft connecting rod (342) in a shaft mode, two groups of support arms (3431) are fixed at the right end of the support frame (3), a sleeve (3432) is installed on the support arms (3431), a waist-shaped groove is formed in the sleeve (3432), bolts are fixed on the sleeve (3432), square plates (3434) are fixed on the support arms (3431), bolts on the sleeve (3432) are installed on the square plates (3434), a bearing seat (3433) is installed on the sleeve (3432), a fourth shaft connecting rod (343) is installed on the bearing seat (3433), a conveying belt (344) is installed between the third shaft connecting rod (342) and the fourth shaft connecting rod (343), and the third shaft connecting rod (342) is connected with an output shaft of the gearbox (34) through a connecting belt.

10. The cutting device for electric scooter frame processing according to claim 9, wherein: the dust collecting device is characterized in that a top frame (37) is arranged on the supporting frame (3) through bolts, a spring plate (371) is arranged on the top frame (37), a guard plate (36) is arranged at the left end of the supporting frame (3), dust collecting plates (35) are arranged at the front end and the rear end of the supporting frame (3) through bolts, and the dust collecting plates (35) are located below the conveying belt (344).