CN218080978U - Cutting device is used in carbon composite processing with adjustable direction cuts - Google Patents

Abstract

The utility model discloses a cutting device for processing carbon composite materials with adjustable cutting direction, which comprises a base, a supporting structure and a collecting box, wherein the supporting structure is arranged at the top of the base, the collecting box is arranged at the top of the base, and two groups of sleeves are arranged on the outer wall of one side of the collecting box; two sets of risers are installed at bearing structure's top, the top of riser is provided with the recess, the rotary column is installed to the diapire of recess, the surface mounting of rotary column has combined material to bundle, and dead lever and pothook are all installed to the front of one set of riser and the back of another set of riser wherein, the surface mounting of dead lever has the movable rod. The utility model discloses in install the part that is used for accomodating carbon composite, cut for longer carbon composite and provide convenience, can change the direction that cuts carbon composite in this device, increase then and cut carbon composite's concrete shape for finally the carbon composite who cuts possesses the variety.

Description

Cutting device is used in carbon composite processing with adjustable direction cuts

Technical Field

The utility model relates to a cutting device technical field specifically is a cutting device is used in carbon combined material processing with adjustable direction cuts.

Background

The carbon composite material is a carbon matrix composite material reinforced by carbon fibers and fabrics thereof, has low density, high strength, high specific modulus, high thermal conductivity, low expansion coefficient and good friction performance, and can be cut into different shapes according to different use occasions in practical application.

The existing device has the defects that:

1. the reference CN110904661A discloses a textile fabric cutting device, which comprises a top seat, a first guide rod and a base, wherein the bottom of the top seat is fixedly connected with the top end of the first guide rod, the bottom end of the first guide rod is fixedly connected with the top end of the base, and the bottom end of the top seat is fixedly connected with an air cylinder. According to the textile fabric cutting device, the transmission gear, the driven gear, the first transmission arm, the second transmission arm, the first pressing plate, the second pressing plate, the first right pressing roller, the second right pressing roller, the first left pressing roller, the second left pressing roller and the like are arranged, after the transmission seat is moved downwards, when the first pressing plate and the second pressing plate touch the surface of a fabric, the first pressing plate and the second pressing plate are pushed by the first transmission arm and the second transmission arm and move towards the two ends of the fabric simultaneously, the fabric is stretched when being pressed tightly, wrinkling of the fabric is avoided, and the problems that the fabric needs to be pressed and fixed independently when the fabric is cut at present, and wrinkling of a cutting area of the fabric easily occur are solved. However, the device does not have a device for accommodating the longer carbon composite material, when the longer carbon composite material is cut, a worker needs to hold the carbon composite material and then place the carbon composite material below the cutting structure one by one, so that the actual operation is complicated;

2. most of the existing carbon composite material cutting devices do not have the function of direction adjustment, so that when the carbon composite material is cut, the carbon composite material cannot be cut in the upper direction, and the integral cutting shape is monotonous.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a carbon combined material processing is with cutting device with adjustable direction cuts to solve the problem of mentioning in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a cutting device for processing carbon composite materials with adjustable cutting directions comprises a base, a supporting structure and a collecting box, wherein the supporting structure is installed at the top of the base, the collecting box is installed at the top of the base and is located in a space formed by the supporting structure in an enclosing mode, and two sets of sleeves are installed on the outer wall of one side of the collecting box;

two sets of risers are installed at bearing structure's top, the top of riser is provided with the recess, the rotary column is installed to the diapire of recess, and the back of rotary column runs through the inside of another group's recess, the surface mounting of rotary column has combined material to tie, and wherein dead lever and pothook are all installed to the front of a set of riser and the back of another group's riser, and the dead lever is located one side of pothook, the surface mounting of dead lever has the movable rod, and the one end of movable rod extends the inside that gets into the pothook.

Preferably, the supporting structure comprises a supporting rod and a workbench, the bottom of the supporting rod is attached to the top of the base, the workbench is installed at the top of the supporting rod, two groups of fixing plates are installed at the top of the workbench, a rotating rod is installed on the front face of one group of fixing plates, the back face of the rotating rod penetrates through the inside of the other group of fixing plates, a press-fit roller is installed on the outer surface of the rotating rod, and the press-fit roller is located on one side of the composite material bundle.

Preferably, two sets of backup pads are installed at the top of workstation, and two sets of backup pads are located the fixed plate and keep away from one side of riser, and the diaphragm is installed at the top of backup pad, and the top of diaphragm is provided with the movable groove, and two-way motor is installed in the front of diaphragm, and the axostylus axostyle is installed to two-way motor's output, and the back mounted of axostylus axostyle has the threaded rod, and the inside in movable groove is run through at the back of threaded rod.

Preferably, the outer surface mounting of threaded rod has the slider, and the bottom of slider extends the inside in activity groove, and electric telescopic handle is installed to the bottom of slider, and the connecting cylinder is installed to electric telescopic handle's bottom, and the rotation motor is installed to the diapire of connecting cylinder, and the pivot is installed to the output of rotating the motor, and the bottom of pivot extends the inside of connecting cylinder, and laser cutting machine is installed to the bottom of pivot.

Preferably, a plurality of groups of connecting plates are uniformly arranged at the bottom of the base, walking wheels are arranged at the bottom of the connecting plates, and two groups of sliding grooves are formed in the top of the base.

Preferably, two sets of chimeric strips are installed at the bottom of the collecting box, and the bottoms of the chimeric strips are attached to the bottom wall of the sliding groove.

Preferably, the outer wall of one side that the collecting box was kept away from to the sleeve is provided with two sets of logical grooves, and the regulation pole is installed to telescopic bottom, and the top of adjusting the pole extends and gets into telescopic inside, and one side outer wall of adjusting the pole is provided with the notch, and expanding spring is installed to one side inner wall of notch, and the fixture block is installed to expanding spring's one end, and one side outer wall of fixture block runs through the inside that wherein a set of logical groove, adjusts the bottom of pole and installs the foundation.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a riser of installation can be used to install the rotary column, the rotary column can be convenient for become cloth form carbon composite coiled bundle form, the dismouting of rotary column is convenient for in the setting of recess, when the carbon composite of rotary column surface has cut and has accomplished, can exert the turning force to the movable rod, make it rotate at the surface of dead lever, then its tail end separates with the pothook gradually, can take out the rotary column from the inside of recess this moment, later roll up new carbon composite on the surface of rotary column, then block it in the recess again, because the bottom of recess is arc, the staff holds carbon composite's one end, can drive composite bundle and rotary column rotation, be used for rolling up carbon composite, can be convenient for cut longer carbon composite;

2. the utility model discloses an installation two-way motor is external to have periodic change current, it can make the axostylus axostyle that the output was installed carry out clockwise and two anticlockwise directions and rotate, the axostylus axostyle can drive its back installation's threaded rod when rotating and rotate, then can drive the slider that passes through the screw thread gomphosis with the threaded rod and carry out the removal that corresponds the direction, then change the turning force that two-way motor applyed into the rectilinear movement of slider, during the slider removes, can drive the corresponding removal of the part of its bottom installation, then can remove the cutting to placing the carbon composite on the workstation, can start the rotation motor among the cutting process, it can drive the pivot that the output was installed after starting and rotate, then drive the laser cutting machine who installs pivot bottom and carry out the direction regulation, then can change the direction that cuts, then increase the concrete shape that cuts carbon composite.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic sectional structure of the present invention;

FIG. 3 is a schematic view of the mounting structure of the sleeve, the through groove and the adjusting rod of the present invention;

fig. 4 is a schematic view of the mounting structure of the connecting cylinder and the rotating motor of the present invention.

In the figure: 1. a base; 101. a connecting plate; 102. a traveling wheel; 103. a chute; 2. a support structure; 201. a support bar; 202. a work table; 3. a collection box; 301. a tabling strip; 4. a sleeve; 401. a through groove; 402. adjusting a rod; 403. a notch; 404. a tension spring; 405. a clamping block; 406. a bottom pillar; 5. a vertical plate; 501. a groove; 502. turning the column; 503. a bundle of composite material; 504. fixing the rod; 505. a movable rod; 506. a hook; 6. a fixing plate; 601. a rotating rod; 602. a press-fit roller; 7. a support plate; 701. a transverse plate; 702. a movable groove; 703. a bi-directional motor; 704. a threaded rod; 8. a slider; 801. an electric telescopic rod; 802. a connecting cylinder; 803. rotating the motor; 804. provided is a laser cutting machine.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides an embodiment: a cutting device for processing carbon composite materials with adjustable cutting direction comprises a base 1, a supporting structure 2 and a collecting box 3, wherein the supporting structure 2 is installed at the top of the base 1, a plurality of groups of connecting plates 101 are evenly installed at the bottom of the base 1, walking wheels 102 are installed at the bottoms of the connecting plates 101, two groups of sliding grooves 103 are formed in the top of the base 1, the base 1 can be used for combined installation of other components in the device, then functional connection is convenient to carry out between each component, the connecting plates 101 can increase the contact area between the tops of the walking wheels 102 and the base 1 and further disperse stress points, the pressure on the walking wheels 102 in the using process can be dispersed, the walking wheels 102 facilitate the device to be replaced, the supporting structure 2 comprises supporting rods 201 and a workbench 202, the bottoms of the supporting rods 201 are attached to the tops of the base 1, the workbench 202 is installed at the tops of the supporting rods 201, the supporting rods 201 have a certain height, the workbench 202 can be lifted up to a proper operating space height, the workbench 202, a surrounding space can be formed between the four groups of the supporting rods and the base 1, the inner wall of the collecting box can be used for placing the collecting box 3, the bottom of the collecting box is provided with a larger space for placing the collecting box 3, the collecting box 301, the bottom of the collecting box 3, the two groups of the collecting box 3 are embedded in the bottom of the collecting box 3, one side where the collecting box 3, and the collecting box 3, the bottom of the collecting box 3 are embedded groove 3, and the collecting box 301, one side of the collecting box 3, an adjusting rod 402 is installed at the bottom of the sleeve 4, the top of the adjusting rod 402 extends into the sleeve 4, a notch 403 is formed in the outer wall of one side of the adjusting rod 402, an expansion spring 404 is installed on the inner wall of one side of the notch 403, a clamping block 405 is installed at one end of the expansion spring 404, the outer wall of one side of the clamping block 405 penetrates through the inside of one group of through grooves 401, a bottom column 406 is installed at the bottom of the adjusting rod 402, the inside of the sleeve 4 is hollow, the adjusting rod 402 can be installed inside the sleeve 4, when a worker draws the collecting box 3 out of the top of the base 1 for a certain distance, the clamping block 405 at the upper through groove 401 can be pressed, the clamping block 405 can transmit extrusion force to the expansion spring 404 located inside the notch 403, when the expansion spring 404 is extruded, the expansion spring can contract under the self elastic deformation capability to change the self length, and then the clamping block 405 can be driven to contract into the inside of the notch 403, then, a downward pulling force is applied to the adjusting rod 402, when the clamping block 405 and the through groove 401 below are positioned on the same horizontal line, the extrusion force applied to the inner wall of the sleeve 4 by the telescopic spring 404 is cancelled, at the moment, the telescopic spring 404 is restored under the action of the restoring property of the telescopic spring 404, at the moment, the outer wall of one side of the clamping block 405 can penetrate through the through groove 401, the bottom of the bottom column 406 is attached to the ground and used for supporting the collecting box 3, two sets of vertical plates 5 are installed at the top of the supporting structure 2, a groove 501 is formed in the top of each vertical plate 5, a rotating column 502 is installed at the bottom wall of each groove 501, the back of each rotating column 502 penetrates through the inside of the other set of grooves 501, a composite material bundle 503 is installed on the outer surface of each rotating column 502, a fixed rod 504 and a clamping hook 506 are installed on the front of one set of vertical plates 5 and the back of the other set of vertical plates 5, the fixed rod 504 is positioned on one side of the clamping hook 506, a movable rod 505 is installed on the outer surface of the fixed rod 504, one end of a movable rod 505 extends into the inside of the hook 506, the vertical plate 5 can be used for installing the rotary column 502, the rotary column 502 can facilitate rolling of the cloth-shaped carbon composite material into a bundle shape, the arrangement of the groove 501 facilitates dismounting of the rotary column 502, when the carbon composite material on the outer surface of the rotary column 502 is cut, a rotating force can be applied to the movable rod 505 to enable the movable rod to rotate on the outer surface of the fixed rod 504, the tail end of the movable rod is gradually separated from the hook 506, the rotary column 502 can be taken out from the inside of the groove 501 at the moment, then a new carbon composite material is rolled on the outer surface of the rotary column 502 and is clamped at the groove 501 again, due to the fact that the bottom of the groove 501 is arc-shaped, a worker can pull one end of the carbon composite material to drive the bundle 503 and the rotary column 502 to rotate, the carbon composite material is used for rolling, two groups of fixed plates 6 are installed on the top of the workbench 202, the rotary rod 601 is installed on the front of one group of the fixed plates 6, the rotary rod 601 penetrates through the inside of the other group of the fixed plates 6, the press-on the outer surface of the rotary rod 601, the press roll 602 is used for pressing of the composite material roll 602, the carbon composite material on the side of the rotary rod 602, and the press-roll for pressing operation of the carbon composite material roll is used for pressing operation of the carbon composite material roll, the rotary rod 602, the carbon composite material roll, and the press-roll, the carbon composite material is used for pressing operation of the carbon composite roll, and the post 202.

As shown in fig. 2 and 4, a cutting device for processing carbon composite materials with adjustable cutting direction, wherein two sets of supporting plates 7 are installed on the top of a workbench 202, the two sets of supporting plates 7 are positioned on one side of a fixing plate 6 far away from a vertical plate 5, a horizontal plate 701 is installed on the top of the supporting plates 7, a movable groove 702 is arranged on the top of the horizontal plate 701, a two-way motor 703 is installed on the front surface of the horizontal plate 701, a shaft rod is installed on the output end of the two-way motor 703, a threaded rod 704 is installed on the back surface of the shaft rod, the back surface of the threaded rod 704 penetrates through the interior of the movable groove 702, a sliding block 8 is installed on the outer surface of the threaded rod 704, the bottom of the sliding block 8 extends out of the movable groove 702, an electric telescopic rod 801 is installed on the bottom of the sliding block 8, a connecting cylinder 802 is installed on the bottom of the connecting cylinder 802, a rotating motor 803 is installed on the output end of the rotating motor 803, the bottom of the rotating shaft extends out of the interior of the connecting cylinder 802, the bottom of the rotating shaft is provided with a laser cutting machine 804, the supporting plate 7 has a certain height, a certain space is reserved between the transverse plate 701 and the workbench 202, the transverse plate 701 is used for installing the sliding block 8, the two-way motor 703 and the threaded rod 704, the two-way motor 703 is externally connected with periodic variable current, the periodic variable current can drive the shaft rod installed at the output end to rotate in the clockwise direction and the anticlockwise direction, the shaft rod can drive the threaded rod 704 installed at the back of the shaft rod to rotate when rotating, then the sliding block 8 embedded with the threaded rod 704 through threads can be driven to move in the corresponding direction, the rotating force applied by the two-way motor 703 is converted into the linear movement of the sliding block 8, when the sliding block 8 moves, the components installed at the bottom of the sliding block can be driven to correspondingly move and cut the carbon composite material placed on the workbench 202, can start rotation motor 803 among the cutting process, it can drive the pivot of output installation after starting and rotate, then drives the laser cutting machine 804 that the pivot bottom was installed and carries out the direction regulation, can change the direction of cutting then, and connecting cylinder 802 is used for installing rotation motor 803.

The working principle is as follows: when the carbon composite material on the outer surface of the rotary column 502 is cut, a rotating force can be applied to the movable rod 505 to drive the movable rod to rotate on the outer surface of the fixed rod 504, the tail end of the movable rod is gradually separated from the hook 506, at the moment, the rotary column 502 can be taken out from the inside of the groove 501, a new carbon composite material is wound on the outer surface of the rotary column 502 and then clamped at the position of the groove 501 again, due to the fact that the bottom of the groove 501 is in the shape of a circular arc, a worker can pull one end of the carbon composite material to drive the composite material bundle 503 and the rotary column 502 to rotate for winding and unwinding the carbon composite material, the pressing roller 602 is used for pressing the carbon composite material wound and unwound from the outer surface of the rotary column 502, at the moment, the bottom of the carbon composite material is attached to the top of the workbench 202 to facilitate later-stage cutting operation, the supporting plate 7 has a certain height to reserve a certain space between the transverse plate 701 and the workbench 202, the transverse plate 701 is used for installing the sliding block 8, the two-way motor 703 and the threaded rod 704, the two-way motor 703 is externally connected with periodic variable current, the two-way motor 703 can drive the shaft rod installed at the output end to rotate in two directions, the shaft rod can drive the threaded rod 704 installed on the back surface to rotate when rotating, then the sliding block 8 embedded with the threaded rod 704 through threads can be driven to move in the corresponding direction, then the rotating force applied by the two-way motor 703 is converted into the linear movement of the sliding block 8, when the sliding block 8 moves, the part installed at the bottom of the sliding block 8 can be driven to correspondingly move, then the carbon composite material placed on the worktable 202 can be moved and cut, the rotating motor 803 can be started during the cutting process, after the rotating motor is started, the rotating shaft installed at the output end can be driven to rotate, then the laser cutting machine 804 installed at the bottom of the rotating shaft is driven to perform direction adjustment, the direction of cutting can then be changed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a carbon combined material processing cutting device with adjustable direction cuts, includes base (1), bearing structure (2) and collecting box (3), its characterized in that: the top of the base (1) is provided with a supporting structure (2), the top of the base (1) is provided with a collecting box (3), the collecting box (3) is positioned in a space formed by enclosing the supporting structure (2), and the outer wall of one side of the collecting box (3) is provided with two groups of sleeves (4);

two sets of risers (5) are installed at the top of bearing structure (2), the top of riser (5) is provided with recess (501), rotary column (502) are installed to the diapire of recess (501), and the back of rotary column (502) runs through the inside of another set of recess (501), the surface mounting of rotary column (502) has combined material to tie (503), and wherein dead lever (504) and pothook (506) are all installed to the front of a set of riser (5) and the back of another set of riser (5), and dead lever (504) are located one side of pothook (506), the surface mounting of dead lever (504) has movable rod (505), and the one end of movable rod (505) extends into the inside of pothook (506).

2. The cutting apparatus of claim 1, wherein: bearing structure (2) comprise bracing piece (201) and workstation (202), the bottom of bracing piece (201) is laminated with the top of base (1), workstation (202) are installed to the top of bracing piece (201), two sets of fixed plate (6) are installed at the top of workstation (202), bull stick (601) are installed to the front of one of them set of fixed plate (6), and the inside of another set of fixed plate (6) is run through at the back of bull stick (601), the surface mounting of bull stick (601) has pressfitting roller (602), and pressfitting roller (602) are located one side of combined material bundle (503).

3. The cutting apparatus for processing carbon composite material with adjustable cutting direction according to claim 2, wherein: two sets of backup pads (7) are installed at the top of workstation (202), and two sets of backup pads (7) are located fixed plate (6) and keep away from one side of riser (5), diaphragm (701) are installed at the top of backup pad (7), the top of diaphragm (701) is provided with movable groove (702), two-way motor (703) are installed in the front of diaphragm (701), the axostylus axostyle is installed to the output of two-way motor (703), threaded rod (704) are installed to the back of axostylus axostyle, and the inside in movable groove (702) is run through at the back of threaded rod (704).

4. The cutting device for processing carbon composite materials with adjustable cutting direction of claim 3, wherein: the utility model discloses a laser cutting machine, including threaded rod (704), connecting cylinder (802), laser cutting machine (804) are installed to the output of rotation motor (803), and the bottom of pivot extends the inside of activity groove (702), and electric telescopic handle (801) is installed to the surface mounting of threaded rod (704), and the bottom of slider (8) extends the inside of activity groove (702), and electric telescopic handle (801) are installed to the bottom of slider (8), connecting cylinder (802) are installed to the bottom of electric telescopic handle (801), rotation motor (803) are installed to the diapire of connecting cylinder (802), the pivot is installed to the output of rotation motor (803, and the bottom of pivot extends the inside of connecting cylinder (802), laser cutting machine (804) are installed to the bottom of pivot.

5. The cutting device for processing carbon composite materials with adjustable cutting direction of claim 1, wherein: the bottom of base (1) evenly installs multiunit connecting plate (101), and walking wheel (102) are installed to the bottom of connecting plate (101), and the top of base (1) is provided with two sets of spouts (103).

6. The cutting device for processing carbon composite materials with adjustable cutting direction of claim 1, wherein: two sets of gomphosis strips (301) are installed to the bottom of collecting box (3), and the bottom of gomphosis strip (301) and the diapire laminating of spout (103).

7. The cutting apparatus of claim 1, wherein: the collecting box is characterized in that two sets of through grooves (401) are formed in the outer wall of one side, away from the collecting box (3), of the sleeve (4), an adjusting rod (402) is installed at the bottom of the sleeve (4), the top of the adjusting rod (402) extends into the sleeve (4), a notch (403) is formed in the outer wall of one side of the adjusting rod (402), a telescopic spring (404) is installed on the inner wall of one side of the notch (403), a clamping block (405) is installed at one end of the telescopic spring (404), the outer wall of one side of the clamping block (405) penetrates through the inside of one set of through grooves (401), and a bottom column (406) is installed at the bottom of the adjusting rod (402).

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