CN219043621U - Metal material belt roller feeding device - Google Patents

Abstract

The application relates to a metal material area gyro wheel material feeding unit, it includes conveying mechanism and guiding mechanism, conveying mechanism is used for carrying the material area to the punching press lathe, guiding mechanism includes mounting bracket, horizontal spacing subassembly and vertical spacing subassembly, the mounting bracket set up in conveying mechanism, horizontal spacing subassembly with vertical spacing subassembly all set up in the mounting bracket, vertical spacing subassembly is used for carrying out vertical direction spacing to the material area, horizontal spacing subassembly is used for carrying out horizontal direction spacing to the material area. The application has the effect that the material belt is not easy to deviate.

Description

Metal material belt roller feeding device

Technical Field

The application relates to the field of metal material belt roller feeding device.

Background

Stamping is a common processing technology in modern processing, the stamping is generally realized through a stamping machine tool, after a raw material of a workpiece is placed between an upper die and a lower die of the stamping machine tool, the machine tool drives the upper die to move towards a direction close to the lower die, and the upper die and the lower die extrude the raw material at the moment, so that a workpiece body is stamped and formed.

In the related art, a metal material belt is machined by a stamping machine tool, the metal material belt is usually required to be conveyed through a feeding device, the feeding device is usually provided with two conveying rollers, the two conveying rollers clamp the material belt, and the two conveying rollers are conveyed between an upper die and a lower die of the stamping machine tool in a chatting mode when rotating, so that the stamping machine tool is convenient to machine.

With respect to the above related art, the inventor considers that the material belt is made of metal, the surface friction force is small, and when the conveying roller conveys the material belt, the material belt is easy to deviate, and the quality of the material belt stamping forming workpiece may be affected.

Disclosure of Invention

In order to enable the material belt not to easily deviate, thereby guaranteeing the quality of the material belt stamping forming workpiece, the application provides a metal material belt roller feeding device.

The application provides a metal material area gyro wheel material feeding unit adopts following technical scheme:

the utility model provides a metal material area gyro wheel material feeding unit, includes conveying mechanism and guiding mechanism, conveying mechanism is used for carrying the material area to the punching press lathe, guiding mechanism includes mounting bracket, horizontal spacing subassembly and vertical spacing subassembly, the mounting bracket set up in conveying mechanism, horizontal spacing subassembly with vertical spacing subassembly all set up in the mounting bracket, vertical spacing subassembly is used for carrying out vertical direction spacing to the material area, horizontal spacing subassembly is used for carrying out horizontal direction spacing to the material area.

Through adopting above-mentioned technical scheme, before conveying mechanism drives and gets into the punching press lathe, the material area carries out horizontal direction and vertical spacing through horizontal spacing subassembly and vertical spacing subassembly to make the material area be difficult for the off tracking in the transportation, thereby be favorable to guaranteeing the quality of material area stamping forming work piece.

Optionally, vertical spacing subassembly includes two mount pads and two clamping rollers, two the mount pad set up in the mounting bracket, two mount pads just set up and leave the clearance, each clamping roller's both ends are installed in two through two regulating blocks respectively the mount pad, two clamping rollers all level sets up and distributes along vertical direction, two the gap that the feed area passed through is left between the clamping roller.

Through adopting above-mentioned technical scheme, the material area will pass through the gap between two pinch rolls before conveying mechanism drives and gets into the punching press lathe, and the setting of two pinch rolls makes the material area be difficult for upwards perk or downwarping at the in-process of carrying to be favorable to guaranteeing the stability of vertical direction when the material area transportation.

Optionally, two the mount pad keep away from one side mutually and run through and set up along the adjustment tank of vertical direction extension, the adjustment tank wear to be equipped with the mounting bolt of regulating block one-to-one, each mounting bolt screw thread fit in each regulating block.

Through adopting above-mentioned technical scheme, the setting of adjusting slot is worn to locate by the bolt makes each installation piece can follow vertical direction adjustment self place height to make two pinch rolls can adjust the clearance between themselves alternately, thereby be favorable to using the material area of different thickness to transport.

Optionally, the horizontal spacing subassembly includes the installation roller of two vertical settings, two the outer peripheral face of installation roller is all rotated and is installed the rotation cover, the mounting bracket is provided with the mounting panel that the level set up, two the equal fixed mounting of installation roller in the mounting panel top, two the clearance that the feed belt passed through is left to the rotation cover.

Through adopting above-mentioned technical scheme, the material area will pass through the gap between two rotation covers before conveying mechanism drives and gets into the punching press lathe to make the material area transportation in-process be difficult for taking place the skew in the horizontal plane, thereby be favorable to guaranteeing the stability of horizontal direction when the material area transportation.

Optionally, two the installation roller bottom is all fixed and is provided with the installation piece, the vertical mounting groove that extends along self length direction that runs through in mounting panel top, two installation piece bottom screw thread fit has locking bolt, two locking bolt all screw thread install in the installation piece bottom.

Through adopting above-mentioned technical scheme, the setting that locking bolt worn to locate the mounting groove makes each installation roller can follow mounting groove length direction adjustment self place to be favorable to rotating the cover and adapt to the material area of different width through adjusting self place.

Optionally, conveying mechanism includes mount, cam and supports and press the subassembly, the mount sets up in the punching press lathe, the cam rotate set up in the mount, support and press the group including supporting the compression roller, in the material area transportation, support the compression roller and contradict in the top surface in the material area, the cam is periodic to contradict in the bottom surface in the material area.

Through adopting above-mentioned technical scheme, support the compression roller and contradict in the top surface of material area, and whenever the cam is quick periodic contact material area's bottom surface, the cam promotes the material area and supports tightly in support the compression roller surface and push away the direction that is close to the punching press lathe with the material area this moment to cooperation punching press lathe continuous stamping forming.

Optionally, support and press the subassembly including dwang and installation pole, the dwang rotate install in the mount, installation pole one end fixed mounting in the outer peripheral face of dwang, just support the compression roller rotate install in the other end of installation pole, during the material area transportation, the dwang passes through fixing bolt restriction self rotation.

By adopting the technical scheme, the installation rod is driven to rotate when the rotating rod rotates, so that the pressing roller rotates around the rotating center of the rotating rod, the distance between the pressing roller and the cam is favorably adjusted, and the material strips with different thicknesses are convenient to convey; after the pressing roller is adjusted to a proper position, the fixing bolt plays a role in fixing the rotating rod, so that the stability of the pressing roller is guaranteed.

Optionally, the dwang one end wears to locate the mounting bracket, the dwang wears to locate the fixed hand wheel that is provided with of one end of mounting bracket.

Through adopting above-mentioned technical scheme, operating personnel can rotate the dwang through the hand wheel and adjust the position of pressing the roller to the operating personnel of being convenient for adjusts the position of pressing the roller according to the material area thickness.

Optionally, conveying mechanism still includes blocks the subassembly, it includes impeller, rotates piece and elastic component to block the subassembly, the impeller is fixed to be set up in the punching press lathe, rotate the piece rotate set up in the mount, pass through during the punching press lathe punching press material area the impeller promotes the piece rotates, it is used for supporting the material area tightly in the support frame top to rotate.

Through adopting above-mentioned technical scheme, when punching press lathe punching press material area, the impeller promotes the rotation piece and rotates and support the material area tightly in the punching press lathe to the place stability when making the punching press of material area, thereby be favorable to further guaranteeing the shaping quality when punching press of material area.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the setting of horizontal spacing subassembly and vertical spacing subassembly plays the effect to the material area is spacing to make the material area be difficult for off tracking in the transportation, thereby be favorable to guaranteeing the quality of material area stamping forming work piece.

2. The cam periodically abuts against the material belt, so that the material belt is convenient to periodically convey to the punching machine tool, and continuous punching forming of the material belt matched with the punching machine tool is facilitated.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a metal strip roller feeding device in an embodiment.

Fig. 2 is a schematic diagram of the overall structure of the conveying mechanism in the embodiment.

FIG. 3 is a schematic diagram of the overall structure of the transmission assembly and the blocking assembly according to the embodiment.

Fig. 4 is a schematic view of the entire structure of the guide mechanism in the embodiment.

Fig. 5 is an enlarged partial schematic view of fig. 4.

Reference numerals illustrate: 1. a conveying mechanism; 11. a fixing frame; 111. a vertical portion; 12. a cam; 121. a mounting shaft; 13. a pressing component; 131. a rotating lever; 132. a mounting rod; 133. pressing roller; 134. a hand wheel; 135. a fixing bolt; 2. a turntable; 21. a first boss; 22. a first rotation pin; 3. a transmission assembly; 31. a connecting rod; 311. a first block; 312. a second block; 32. a crank; 321. a second boss; 322. a mounting sleeve; 323. a mounting table; 324. a second rotation pin; 4. a blocking assembly; 41. a pushing member; 42. a cantilever; 43. a rotating member; 431. a force receiving part; 432. a force application part; 44. a reset lever; 45. an elastic member; 5. a mounting frame; 51. a horizontal portion; 52. a mounting plate; 521. a mounting groove; 6. a vertical limit assembly; 61. a mounting base; 611. an adjustment tank; 62. a pinch roller; 63. an adjusting block; 7. a lateral limit assembly; 71. a mounting roller; 72. a mounting block; 73. a locking bolt; 74. and rotating the sleeve.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a metal material belt roller feeding device. Referring to fig. 1 and 2, including conveying mechanism 1 and guiding mechanism, conveying mechanism 1 includes mount 11, cam 12 and supports pressure subassembly 13, in this embodiment, mount 11 includes two vertical setting's vertical portion 111, two vertical portion 111 are just right setting, and fixed mounting is in one side of punching press lathe width direction, cam 12 is installed in two vertical portion 111 just right sides through installation axle 121 rotation, one of them vertical portion 111 is worn to locate by installation axle 121 length direction's one end, the punching press lathe is provided with the vertical setting of carousel 2, the during operation of punching press lathe, carousel 2 continuously rotates, carousel 2 rotates through drive assembly 3 drive installation axle 121.

The pressing component 13 includes two rotating rods 131, two mounting rods 132 and pressing rollers 133, in this embodiment, the rotating rods 131 are rotatably mounted on the two vertical portions 111, one ends of the two mounting rods 132 are respectively fixedly mounted on the outer peripheral surface of the rotating rods 131 and are opposite to each other, a gap is reserved between the two mounting rods 132, and the pressing rollers 133 rotate one ends of the two mounting rods 132 away from the rotating rods 131 and are located between the two mounting rods 132; one end of the mounting rod 132 is penetrated and arranged at one vertical part 111, a hand wheel 134 is fixedly arranged at one end of the mounting rod 132 penetrating and arranged at one vertical part 111, the material belt passes through the top of the cam 12 and the bottom of the first wheel, an operator can rotate the hand wheel 134 according to the thickness of the material belt to adjust the gap between the first wheel and the cam 12, so that the material belts with different thicknesses can pass through conveniently, fixing bolts 135 are in threaded fit with one sides of the two mounting parts far away from the punching machine, and the bolts are abutted against the rotating rods 131 to enable the transmission rods not to rotate easily.

Referring to fig. 2 and 3, the driving assembly includes a connecting rod 31 and a crank 32, a first boss 21 is rotatably mounted on one side of the turntable 2 far away from the punching machine, one end of the crank 32 is fixedly mounted on the rotating shaft, a second boss 321 is fixedly mounted on the other end of the crank, a mounting sleeve 322 is sleeved on the second boss 321, a mounting table 323 is integrally arranged on the outer surface of the mounting sleeve 322, a first -shaped block 311 and a second -shaped block 312 are fixedly mounted at two ends of the connecting rod 31, openings of the first -shaped block 311 and the second -shaped block 312 face to one side far away from the connecting rod 31, a first rotating pin 22 is penetrated through the first boss 21, a second rotating pin 324 is penetrated through the mounting table 323, two ends of the first rotating pin 22 are fixedly mounted on two opposite inner side walls of the first -shaped block 311, and two ends of the second rotating pin 324 are fixedly mounted on two opposite inner side walls of the second -shaped block 312.

When the turntable 2 drives the first boss 21 to rotate to a higher position, the connecting rod 31 is driven to move upwards, so that the crank 32 is driven to swing in a vertical plane, and the cam 12 is driven to rotate, so that the cam 12 periodically contacts the bottom surface of the material belt, and when the cam 12 and the pressing roller 133 press the material belt, the cam 12 pushes the material belt to a direction close to a punching machine tool, so that the punching machine tool is convenient to continuously punch.

The conveying mechanism 1 further comprises a blocking component 4, the blocking component 4 comprises a pushing piece 41, a cantilever 42, a rotating piece 43, a reset rod 44 and an elastic piece 45, the pushing piece 41 is vertically arranged, the pushing piece 41 is in a rod shape, threads are arranged on the outer peripheral surface of the pushing piece, one end of the cantilever 42 is fixedly arranged on the upper die of the punching machine tool, the pushing piece 41 is arranged on the other end of the cantilever 42 in a threaded mode, the rotating piece 43 comprises a force receiving portion 431 and a force applying portion 432, one end of the force receiving portion 431 is integrally arranged on one end of the force applying portion 432 in the length direction, so that the rotating piece 43 is in a V shape, the rotation of the force receiving portion 431 and the force applying portion 432 are connected is arranged in the middle of the reset rod 44, the position of the force receiving portion 431 is higher than the position of the force applying portion 432, in this embodiment, the elastic piece 45 is arranged in two springs, two springs are sleeved on the reset rod 44 and are arranged on two sides of the rotating piece 43, one ends of the two springs are fixedly connected with two sides of the width direction of the rotating piece 43, the other ends of the two springs are fixedly arranged on one side opposite to the two vertical portions 111, and the pushing piece 41 is driven to fall down when the upper die of the punching machine tool is punched, so that the force receiving portion 43 is in a stable position when the lifting piece is pressed against a material, and the punching position of the machine tool is located.

Referring to fig. 4 and 5, guiding mechanism includes mounting bracket 5, horizontal spacing subassembly 7 and vertical locating component, mounting bracket 5 includes two horizontal portions 51, the one end of two horizontal portions 51 is fixed mounting respectively in the one side that the lathe was kept away from to mount 11, and leave the clearance between two horizontal portions 51, vertical spacing subassembly 6 includes two mount pads 61 and two clamping rollers 62, two mount pads 61 just set up and fixed mounting just in one side of two horizontal portions 51, two mount pads 61 keep away from one side mutually and run through the adjustment tank 611 that extends along vertical direction, two adjustment tank 611 wears to have two mounting bolts respectively, each mounting bolt all screw-thread fit has regulating block 63, and each mounting bolt's bolt head supports tightly in two mount pad 61 one side that keeps away from mutually, each regulating block 63 just sets up two by two, each clamping roller 62 leaves the clearance and rotates respectively and install in two just regulating block 63 that just set up, the setting up of adjustment tank 611 is convenient for two clamping rollers 62 adjust self position along vertical direction, thereby be convenient for the feed belt of different thickness, and two clamping rollers 62 play the spacing effect to the feed belt, so that when making the feed belt get into conveying mechanism 1 or fall down easily.

The transverse limiting assembly 7 is arranged between the fixing frame 11 and the vertical limiting assembly 6, the transverse limiting assembly 7 comprises two vertically arranged mounting rollers 71, a horizontally arranged mounting plate 52 is fixedly arranged between the two horizontal portions 51, mounting grooves 521 extending along the length direction of the mounting plate 52 are vertically formed in a penetrating mode at the top of the mounting plate 52, mounting blocks 72 are integrally arranged at the bottoms of the two mounting rollers 71, locking bolts 73 which are respectively in threaded fit with the two mounting blocks 72 are arranged in the mounting grooves 521 in a penetrating mode, the bolt heads of the locking bolts 73 are abutted to the bottoms of the mounting plates 52, the mounting rollers 71 are fixedly mounted, rotating sleeves 74 are rotatably arranged on the outer peripheral surface of the mounting rollers 71, gaps are reserved between the two mounting strips, when a material belt passes through the gaps between the two mounting sleeves 322, the two rotating sleeves 74 are arranged to facilitate the passing of the material belt, the two mounting rollers 71 are arranged along the length direction of the mounting grooves 521 to adjust the positions of the mounting grooves 521, the material belt with different widths is convenient to pass through the gaps between the two mounting sleeves 322, and the two mounting rollers 71 and the arrangement of the two mounting sleeves 322 enable the material belt not to be prone to offset along the horizontal direction.

The implementation principle of the metal material belt roller feeding device is as follows: the operation passes through the vertical limiting component 6 and the horizontal limiting component 7 in sequence, and passes through the gap between the cam 12 and the pressing roller after being limited in the horizontal direction and the vertical direction, and in the process of continuously punching the material belt by the upper die of the punching machine tool, the cam 12 is driven by the rotary table 2 and the transmission component 3 to repeatedly rotate so as to periodically contact with the bottom surface of the material belt, when the cam 12 and the pressing roller 133 periodically press the material belt, the cam 12 pushes the material belt to a direction close to the punching machine tool, so that the punching machine tool is convenient to work, and when the upper die of the punching machine tool descends, the pushing piece 41 pushes the rotating piece 43 to rotate so as to press the material belt against the punching machine tool, so that the position of the material belt is stable during punching, and the punching quality of the material belt is facilitated to be improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. The utility model provides a metal material area gyro wheel material feeding unit which characterized in that: including conveying mechanism (1) and guiding mechanism, conveying mechanism (1) is used for carrying the material area to the punching press lathe, guiding mechanism includes mounting bracket (5), horizontal spacing subassembly (7) and vertical spacing subassembly (6), mounting bracket (5) set up in conveying mechanism (1), horizontal spacing subassembly (7) with vertical spacing subassembly (6) all set up in mounting bracket (5), vertical spacing subassembly (6) are used for carrying out vertical direction spacing to the material area, horizontal spacing subassembly (7) are used for carrying out the horizontal direction spacing to the material area.

2. The metal strip roller feeding device according to claim 1, wherein: the vertical limiting assembly (6) comprises two mounting seats (61) and two clamping rollers (62), wherein the two mounting seats (61) are arranged on the mounting frame (5), the two mounting seats (61) are opposite to each other and form a gap, two ends of each clamping roller (62) are respectively arranged on the two mounting seats (61) through two adjusting blocks (63), the two clamping rollers (62) are horizontally arranged and distributed along the vertical direction, and a gap for a feeding belt to pass through is reserved between the two clamping rollers (62).

3. The metal strip roller feeding device according to claim 2, wherein: two mounting seats (61) are far away from one side and penetrate through an adjusting groove (611) extending along the vertical direction, the adjusting groove (611) is provided with mounting bolts in a penetrating mode, the mounting bolts correspond to the adjusting blocks (63) one by one, and the mounting bolts are in threaded fit with the adjusting blocks (63).

4. The metal strip roller feeding device according to claim 1, wherein: the transverse limiting assembly (7) comprises two vertically arranged mounting rollers (71), a rotating sleeve (74) is rotatably arranged on the outer peripheral surface of each mounting roller (71), a horizontally arranged mounting plate (52) is arranged on each mounting frame (5), each mounting roller (71) is fixedly arranged at the top of each mounting plate (52), and a gap for a feeding belt to pass through is reserved between each rotating sleeve (74).

5. The metal strip roller feeding device according to claim 4, wherein: the two installation rollers (71) are fixedly provided with installation blocks (72) at the bottoms, installation grooves (521) extending along the length direction of the installation plates (52) are vertically formed in the tops in a penetrating mode, locking bolts (73) are matched with the bottoms of the installation blocks (72) in a threaded mode, and the locking bolts (73) are installed at the bottoms of the installation blocks (72) in a threaded mode.

6. The metal strip roller feeding device according to claim 1, wherein: conveying mechanism (1) include mount (11), cam (12) and support and press subassembly (13), mount (11) set up in the punching press lathe, cam (12) rotate set up in mount (11), support and press the group including supporting compression roller (133), in the material area transportation, support compression roller (133) and contradict in the top surface in the material area, cam (12) periodic conflict in the bottom surface in the material area.

7. The metal strip roller feeding device according to claim 6, wherein: the pressing assembly (13) further comprises a rotating rod (131) and a mounting rod (132), the rotating rod (131) is rotatably mounted on the fixing frame (11), one end of the mounting rod (132) is fixedly mounted on the outer circumferential surface of the rotating rod (131), the pressing roller (133) is rotatably mounted on the other end of the mounting rod (132), and the rotating rod (131) limits rotation of the pressing roller through a fixing bolt (135) when the material belt is transported.

8. The metal strip roller feeding device according to claim 7, wherein: one end of the rotating rod (131) penetrates through the mounting frame (5), and a hand wheel (134) is fixedly arranged at one end of the rotating rod (131) penetrating through the mounting frame (5).

9. The metal strip roller feeding device according to claim 6, wherein: the conveying mechanism (1) further comprises a blocking assembly (4), the blocking assembly (4) comprises a pushing piece (41), a rotating piece (43) and an elastic piece (45), the pushing piece (41) is fixedly arranged on the punching machine tool, the rotating piece (43) is rotationally arranged on the fixing frame (11), the pushing piece (41) is used for pushing the rotating piece (43) to rotate when the punching machine tool punches a material belt, and the rotating piece (43) is used for propping the material belt against the top of the supporting frame.

Images