CN116237985B - Positioning and cutting device for flexible graphite multilayer composite film and use method - Google Patents

Abstract

The invention relates to the technical field of composite film cutting equipment, in particular to a positioning and cutting device for a flexible graphite multilayer composite film and a use method thereof, wherein the graphite composite film is mainly pressed and positioned through a cutting and positioning structure, and extrusion damage to the graphite composite film is avoided on the basis of ensuring the stable position of the graphite composite film; the cutting load bearing assembly, the cutting positioning structure, the electric control sliding seat, the control telescopic rod and the cutting tool are matched for cutting, so that on one hand, equidistant cutting operation is convenient and fast, cutting is accurate, machining quality is guaranteed, and the problem of position deviation is not easy to occur; the positioning pressing plate can be provided with a replacement component for later maintenance and repair more conveniently and local maintenance work, and the cutting device has good convenience for adjusting the cutting distance, improves the working flexibility and meets the actual processing requirement.

Description

Positioning and cutting device for flexible graphite multilayer composite film and use method

Technical Field

The invention relates to the technical field of composite membrane cutting equipment, in particular to a positioning and cutting device for a flexible graphite multilayer composite membrane and a use method.

Background

The flexible graphite composite grounding material is an emerging non-metal grounding conductive material, and compared with the traditional low-carbon steel, galvanized steel, copper-clad steel and other metal grounding materials, the non-metal grounding material has good corrosion resistance and flexibility bending characteristics on the premise of good conductivity, is widely applied to the grounding fields of multiple industries such as electric power, oil-gas petrochemical industry, transportation, construction and the like, and has wide application prospects in the lightning protection and antistatic grounding industries. The preparation of the flexible graphite composite grounding material mainly takes flake graphite with high carbon content as a main raw material, and is made of molding materials such as glass fiber, thermosensitive adhesive and the like. The flexible graphite composite grounding material has various shapes such as a round cable body, a flat belt, a blanket shape and the like, but the basic constituent units of the flexible graphite composite grounding material are graphite wires, and the flexible graphite wires are subjected to different braiding industries to finally obtain the flexible grounding material with different shapes. It can be seen from this: the flake graphite is subjected to high-temperature puffing to obtain worm graphite, and the multi-layer composite graphite film is obtained through compression molding, wherein the multi-layer composite graphite film is a base material for preparing flexible graphite wires, and cutting the multi-layer composite graphite film into graphite strips with proper widths is a key process for preparing the flexible graphite composite grounding material.

The Chinese patent document with the publication number of CN206976595U discloses a carbon fiber graphite flexible grounding body, which aims at improving and optimizing the problems that in the prior art, electrochemical reaction exists between two materials of graphite and metal wires, the corrosion of the metal wires can be further accelerated, the structural damage is caused, the strength of the metal wires is lost and the practical service life of the metal wires is short; the processing and production solution scheme is as follows:

(1) Puffing: instantly puffing 32-80 mesh expandable graphite at 800-1000 ℃ for 170-220 times to form vermiform graphite;

(2) And (3) separating gas and material: separating and collecting the expanded graphite worm gas material, wherein the length of the worm is 0.5-1 cm;

(3) Laying a bottom graphite film: uniformly paving and calendaring the collected graphite worms to prepare a soft and compact graphite film with the thickness of 0.2-0.5 mm and the density of 0.5-0.7 g/cm < 3 >;

(4) Paving fibers: fiber materials such as glass fiber, carbon fiber, cotton yarn and the like are simultaneously guided to the upper surface of the graphite film in parallel through a pay-off frame, and glue is coated on the carbon fiber and the cotton yarn by a glue coating device;

(5) Paving surface layer graphite: uniformly paving graphite worms on the fiber and the bottom graphite film, and calendering again through a troweling roller and a pressing roller to prepare a multilayer composite graphite composite film;

(6) And (3) rolling: cutting the two sides of the multilayer composite graphite composite film in order by a cutter, and then rolling the multilayer composite graphite composite film by a rolling mechanism;

(7) Cutting: and cutting the multilayer composite graphite composite film into narrow strips with uniform width by a cutter.

In the above scheme, for the slitting work of the multi-layer composite graphite composite film, the multi-layer composite graphite composite film is generally fixed on a cutting workbench in the prior art, and then the cutting work is carried out by using a corresponding cutting tool; in the process, on one hand, for the positioning work of the multi-layer composite graphite composite film, when equidistant slitting work is carried out, the positioning and positioning release work is needed to be carried out in a reciprocating way, the repeated positioning operation is more frequent, and the operation is complicated; furthermore, certain errors exist for each positioning, so that equidistant cutting quality is affected, and the cutting and processing working benefit is reduced; improvements and optimizations are needed.

Therefore, the invention provides a positioning and cutting device for a flexible graphite multilayer composite film and a using method thereof, which are used for solving the problems.

Disclosure of Invention

The invention aims to provide a positioning and cutting device for a flexible graphite multilayer composite film and a use method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the flexible graphite multilayer composite film positioning and cutting device comprises a workbench, wherein a supporting body is fixedly arranged on the workbench, one side of the top end of the supporting body is connected with a sliding rail, the bottom side of the sliding rail is connected with an electric control sliding seat, the bottom side of the electric control sliding seat is fixedly provided with a control telescopic rod, and the bottom end of the control telescopic rod is fixedly provided with a cutting tool;

the cutting and bearing assembly is connected to the workbench, a cutting and positioning structure is connected to the cutting and bearing assembly, one side of the cutting and bearing assembly is connected to a positioning control assembly, the cutting and positioning structure compresses and positions the composite film, and the cutting and bearing assembly performs cutting through a cutting tool and comprises a bearing sliding seat, a positioning plate, a convex sliding block, a bearing plate, a base plate, a mounting screw, a cutting protection groove and an auxiliary ball;

the positioning control assembly comprises an L-shaped fixed rod, a positioning spring pin, a handle and a positioning circular groove;

the cutting positioning structure comprises a positioning pressing plate, a cutting equidistant dividing groove, a regulating groove, a movable body, an auxiliary spring, a butt joint slot, an auxiliary chute, a butt joint body, a fastening screw, a knob, a regulating pressing plate, a transmission column, a first reset spring, a T-shaped clamping plate and a second reset spring.

Preferably, bear the weight of the slide symmetry setting on the workstation, and bear the weight of the fixed locating plate that is provided with of both sides symmetry of slide, the locating plate passes through the fix with screw on the workstation, the activity is provided with the convex sliding block in the bearing slide, the fixed bottom that sets up at the bearing plate of convex sliding block symmetry, and the bottom equidistance scarf joint activity of convex sliding block is provided with supplementary ball, be provided with the backing plate through the installation screw fixation on the bearing plate, the equidistance is provided with the cutting protection slot on the backing plate, the bearing plate sets up on bearing the slide, and carries out position location through the positioning control subassembly of setting.

Preferably, the L-shaped fixing rod is fixedly arranged on one side of the bearing plate, the L-shaped fixing rod is movably provided with a positioning spring pin, one end of the positioning spring pin is fixedly provided with a handle, and the positioning circular grooves are equidistantly arranged on one side of the bearing slide seat.

Preferably, the positioning circular grooves correspond to the cutting protection grooves in arrangement positions, and the number of the arrangement groups is the same; and the positioning circular groove corresponds to the positioning spring pin in the setting position, and the positioning circular groove and the positioning spring pin are in fit and clamping connection.

Preferably, the equidistance is run through and is provided with the cutting equidistance and divides the groove in the location clamp plate, and the both ends symmetry of location clamp plate is fixed with the handle, regulation and control groove sets up on the backing plate, regulation and control groove interval is provided with two, and the activity is provided with the activity body in the regulation and control groove, and the fixed auxiliary spring that is provided with in one side in regulation and control groove of one end of activity body, the butt joint slot sets up in the activity body, and one side in the butt joint slot is provided with auxiliary chute, butt joint plug-in body and butt joint slot set up the position corresponding, set up the same, both looks adaptation grafting, and butt joint plug-in body symmetry fixed set up in the bottom side of location clamp plate, be provided with the screw thread groove in the butt joint plug-in body, screw thread groove and fastening screw looks adaptation threaded connection, and fastening screw's one end fixed be provided with the knob, regulation and control activity sets up in one side of butt joint plug-in body, and the fixed drive post that is provided with of one end of regulation and control preforming, the fixed setting up first reset spring in the butt joint plug-in body, and the one end of drive post is fixed with first reset spring, and the fixed setting in the butt joint plug-in body, and the one end of drive post extends to the screw thread face, and the end is set up to the end of the T type extension clamp plate in the first end in the fixed connection of T type plug-in the T.

Preferably, the cutting equidistant dividing grooves correspond to the cutting protection grooves in setting positions and have the same setting group number.

Preferably, the adjustment work of cutting equidistance on the location clamp plate in the cutting location structure is realized through using replacement subassembly, improve its work flexibility, replacement subassembly includes frame groove, fixed plate, connection draw-in groove, first magnet piece, cuts regulation and control board, connecting block, handle, elasticity clamp pad, connection plug, second magnet piece, the frame groove sets up in the location clamp plate, and the both sides symmetry in the frame groove is fixed to be provided with the fixed plate, the equidistance is provided with the connection draw-in groove on the fixed plate, fixed first magnet piece that is provided with in the connection draw-in groove, and the looks adaptation grafting is provided with the connection plug in the connection draw-in groove, the bottom mounting of location clamp plate is provided with the second magnet piece, and connects the fixed bottom that sets up at the connecting block, the connecting block symmetry is fixed to be provided with the handle at the both ends of cutting regulation and control board, the fixed being provided with of regulation and control board bottom side, connect the plug sets up corresponding, the setting group number is the same with the connection draw-in groove, and the second magnet piece sets up the corresponding position, the mutual attraction number of magnet piece sets up the same with the first magnet piece.

Preferably, the cutting regulation plates are fixedly arranged in the frame groove at equal intervals, two adjacent cutting regulation plates are provided with gaps, the gaps are the cutting grooves of the cutting tool during working, and the distance between the cutting regulation plates can be correspondingly regulated according to actual cutting processing requirements.

The application method of the positioning and cutting device for the flexible graphite multilayer composite film comprises the following steps:

the graphite composite film is pressed and positioned mainly through the cutting positioning structure, and extrusion damage to the graphite composite film is avoided on the basis of ensuring the stable position of the graphite composite film; then cutting is carried out through the cooperation between the cutting bearing assembly and the electric control sliding seat, the control telescopic rod and the cutting tool; the cutting equidistant groove separation on the positioning pressing plate in the cutting positioning structure can be correspondingly regulated and controlled to be integrally replaced or realized by using a replacement component, so that the cutting work flexibility is improved, and the actual processing requirement can be met.

Compared with the prior art, the invention has the beneficial effects that:

according to the flexible graphite multilayer composite film positioning and cutting device, in the process of cutting the multilayer composite graphite composite film, the graphite composite film is mainly pressed and positioned through the cutting and positioning structure, and extrusion damage to the flexible graphite multilayer composite film is avoided on the basis of ensuring the stable position of the flexible graphite multilayer composite film; the cutting load bearing assembly, the cutting positioning structure, the electric control sliding seat, the control telescopic rod and the cutting tool are matched for cutting, so that on one hand, equidistant cutting operation is convenient and fast, cutting is accurate, machining quality is guaranteed, and moreover, the problem of position deviation is not easy to occur in the machining process; the positioning pressing plate can be provided with a replacement component for later maintenance and repair more conveniently and local maintenance work, and the cutting device has good convenience for adjusting the cutting distance, improves the working flexibility and meets the actual processing requirement.

Drawings

FIG. 1 is a schematic view of the structural connection front side of a flexible graphite multilayer composite film positioning and cutting device of the invention;

FIG. 2 is an enlarged schematic view of a portion of the structural joint of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the structural connection back side of the flexible graphite multilayer composite film positioning and cutting device of the present invention;

FIG. 4 is an enlarged schematic view of a portion of the structural joint of FIG. 3 in accordance with the present invention;

FIG. 5 is a top view of a cutting carrier assembly structure according to the present invention;

FIG. 6 is an enlarged schematic view of a portion of the structural joint of FIG. 5 in accordance with the present invention;

FIG. 7 is a bottom view of a cut carrier assembly structure according to the present invention;

FIG. 8 is an enlarged view of a portion of a connection between the positioning control assembly on the carrier plate of FIG. 7 according to the present invention;

FIG. 9 is an enlarged view of a portion of the connection of the positioning platen structure of FIG. 7 in accordance with the present invention;

FIG. 10 is a schematic diagram showing the connection of the control slot structure on the backing plate of the present invention;

FIG. 11 is an enlarged partial schematic view of the structural joint of FIG. 10 in accordance with the present invention;

FIG. 12 is a schematic view of the connection of the bottom side of the mat of the present invention to the connector structure;

FIG. 13 is an enlarged partial schematic view of the structural joint of FIG. 12 in accordance with the present invention;

FIG. 14 is a partial cross-sectional view of a connection to an internal structure of a docking station in a cutting and positioning structure of the present invention;

FIG. 15 is an enlarged partial schematic view of the structural joint of FIG. 14 in accordance with the present invention;

FIG. 16 is a schematic view of the structural connection of the positioning platen and the replacement assembly of the present invention;

FIG. 17 is an enlarged schematic view of a portion of the structural joint of FIG. 16 in accordance with the present invention;

FIG. 18 is a schematic view of a connection of a slit control plate structure in an alternative assembly of the present invention;

fig. 19 is an enlarged partial schematic view of the structural connection of fig. 18 in accordance with the present invention.

In the figure: the device comprises a workbench 1, a supporting body 2, a sliding rail 3, an electric control sliding seat 4, a control telescopic rod 5, a cutting tool 6, a cutting bearing component 7, a bearing sliding seat 701, a positioning plate 702, a convex sliding block 703, a bearing plate 704, a backing plate 705, a mounting screw 706, a cutting protection groove 707, an auxiliary ball 708, a positioning control component 8, an L-shaped fixing rod 801, a positioning spring pin 802, a handle 803, a positioning round groove 804, a cutting positioning structure 9, a positioning pressing plate 901, a cutting equidistant dividing groove 902, a regulating groove 903, a movable body 904, an auxiliary spring 905, a butting slot 906, an auxiliary chute 907, a butting plug 908, a fastening screw 909, a knob 910, a regulating pressing piece 911, a transmission column 912, a first reset spring 913, a T-shaped clamping plate 914, a second reset spring 915, a replacement component 10, a frame groove 1001, a fixing plate 1002, a connecting clamping groove 1003, a first magnet piece 1004, a cutting regulating plate 1005, a connecting block 1006, a lifting handle 1007, an elastic pressing pad 1008, a connecting plug 1009 and a second magnet piece 1010.

Description of the embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below. Embodiments of the present invention are intended to be within the scope of the present invention as defined by the appended claims.

Embodiment one: referring to fig. 1-15, a positioning and cutting device for a flexible graphite multilayer composite film comprises a workbench 1, wherein a support body 2 is fixedly arranged on the workbench 1, a sliding rail 3 is connected and arranged on one side of the top end of the support body 2, an electric control sliding seat 4 is connected and arranged on the bottom side of the sliding rail 3, a control telescopic rod 5 is fixedly arranged on the bottom side of the electric control sliding seat 4, and a cutting tool 6 is fixedly arranged at the bottom end of the control telescopic rod 5;

the workbench 1 is connected with a cutting bearing assembly 7, the cutting bearing assembly 7 is connected with a cutting positioning structure 9, one side of the cutting bearing assembly 7 is connected with a positioning control assembly 8, the cutting positioning structure 9 compresses and positions the composite film, the cutting tool 6 is used for cutting, and the cutting bearing assembly 7 comprises a bearing slide 701, a positioning plate 702, a convex sliding block 703, a bearing plate 704, a backing plate 705, a mounting screw 706, a cutting protection groove 707 and an auxiliary ball 708; the bearing slide 701 is symmetrically arranged on the workbench 1, positioning plates 702 are symmetrically and fixedly arranged on two sides of the bearing slide 701, the positioning plates 702 are fixed on the workbench 1 through screws, a convex sliding block 703 is movably arranged in the bearing slide 701, the convex sliding block 703 is symmetrically and fixedly arranged at the bottom end of the bearing plate 704, auxiliary balls 708 are movably arranged at the bottom end of the convex sliding block 703 in an equidistant embedding manner, a base plate 705 is fixedly arranged on the bearing plate 704 through mounting screws 706, cutting protection grooves 707 are equidistantly arranged on the base plate 705, the bearing plate 704 is arranged on the bearing slide 701, and position positioning is performed through a set positioning control assembly 8.

The positioning control assembly 8 comprises an L-shaped fixing rod 801, a positioning spring pin 802, a handle 803 and a positioning circular groove 804; the L-shaped fixing rod 801 is fixedly arranged on one side of the bearing plate 704, a positioning spring pin 802 is movably arranged on the L-shaped fixing rod 801, a handle 803 is fixedly arranged at one end of the positioning spring pin 802, and positioning circular grooves 804 are equidistantly arranged on one side of the bearing slide 701; the positioning circular grooves 804 correspond to the arrangement positions of the cutting protection grooves 707, and the number of the arrangement groups is the same; and the positioning circular groove 804 corresponds to the positioning spring pin 802 in the setting position, and the positioning circular groove and the positioning spring pin are in fit and clamping connection.

The cutting positioning structure 9 comprises a positioning pressing plate 901, a cutting equidistant dividing groove 902, a regulating groove 903, a movable body 904, an auxiliary spring 905, a docking slot 906, an auxiliary chute 907, a docking plug 908, a fastening screw 909, a knob 910, a regulating pressing piece 911, a transmission column 912, a first return spring 913, a T-shaped clamping plate 914 and a second return spring 915; the positioning pressing plate 901 is provided with equidistant cutting dividing grooves 902 in a penetrating way, handles are symmetrically fixed at two ends of the positioning pressing plate 901, regulating grooves 903 are arranged on the upper side of a backing plate 705, two regulating grooves 903 are arranged at intervals, a movable body 904 is movably arranged in the regulating grooves 903, one end of the movable body 904 is fixedly provided with an auxiliary spring 905, one end of the auxiliary spring 905 is fixedly arranged on one side of the regulating grooves 903, a butting slot 906 is arranged in the movable body 904, one side of the butting slot 906 is provided with an auxiliary chute 907, the butting slots 908 and the butting slots 906 are correspondingly arranged in the same number of groups, are matched and inserted in each other, the butting slots 908 are symmetrically and fixedly arranged on the bottom side of the positioning pressing plate 901, threaded grooves are arranged in the butting slots 908 and are matched and connected with fastening screws 909 in a threaded manner, the knob 910 is fixedly arranged at one end of the fastening screw 909, the regulating and controlling pressing sheet 911 is movably arranged at one side of the butt-joint plug body 908, the transmission column 912 is fixedly arranged at one end of the regulating and controlling pressing sheet 911, the first reset spring 913 is fixedly arranged at one end connected with the transmission column 912, one end of the first reset spring 913 is fixedly arranged in the butt-joint plug body 908, one end of the transmission column 912 extends into the thread groove, the end part of the first reset spring 913 is provided with an arc-shaped surface, the T-shaped clamping plate 914 is movably inserted in the butt-joint plug body 908, the second reset spring 915 is fixedly arranged on the T-shaped clamping plate 914, one end of the second reset spring 915 is fixedly arranged in the butt-joint plug body 908, one end of the T-shaped clamping plate 914 extends into the thread groove, and the end part of the first reset spring 914 is provided with an auxiliary slope; the cutting equidistant dividing grooves 902 correspond to the setting positions of the cutting guard grooves 707, and the setting group numbers are the same.

According to the flexible graphite multilayer composite film positioning and cutting device, in the process of cutting the multilayer composite graphite composite film, the graphite composite film is mainly pressed and positioned through the cutting and positioning structure 9, and extrusion damage to the flexible graphite multilayer composite film is avoided on the basis of ensuring the stable position of the flexible graphite multilayer composite film; then, the cutting load bearing assembly 7 is matched with the electric control sliding seat 4, the control telescopic rod 5 and the cutting tool 6 for cutting; placing the graphite composite film on a backing plate 705 in a cutting bearing assembly 7, then spreading and tensioning, and compacting and positioning the graphite composite film through a positioning control assembly 8, namely compacting the graphite composite film through a positioning pressing plate 901, so that a butt-joint inserting body 908 at the bottom end of the positioning pressing plate 901 is inserted into a butt-joint inserting slot 906 on a movable body 904, and meanwhile, cutting equidistant dividing slots 902 arranged on the positioning pressing plate 901 are aligned with cutting protection slots 707 on the backing plate 705; then screwing a fastening screw 909 into a thread groove in the butt-joint inserting body 908, extruding the end part of the transmission column 912 extending into the thread groove by the fastening screw 909 and extruding an auxiliary slope of the end part of the T-shaped clamping plate 914 extending into the thread groove, so that one end of the T-shaped clamping plate 914 enters into an auxiliary chute 907 at the inner side of the butt-joint inserting groove 906, extruding an inclined plane in the auxiliary chute 907, and realizing the positioning work of the positioning pressing plate 901, meanwhile, pushing the regulating and controlling pressing plate 911 by the transmission column 912 to extrude the movable body 904, on one hand, fine adjustment can be performed on the position of the positioning pressing plate 901, the positioning accuracy of the position of the positioning pressing plate is ensured, and furthermore, the inserting stability of the butt-joint inserting body 908 and the butt-joint inserting groove 906 can be improved; finally, the electric control sliding seat 4 slides on the sliding rail 3 in a controlled manner, so that the cutting tool 6 is driven to move and then is matched with the control telescopic rod 5, so that the cutting tool 6 enters the cutting equidistant dividing groove 902 to cut and process the graphite composite film, and a cutting protection groove 707 is arranged right below the cutting equidistant dividing groove 902 at the corresponding position, so that the cutter head of the cutting tool 6 has a protection effect; when equidistant cutting is performed, the worker moves the bearing plate 704 at equal intervals, namely, when the worker needs to move to the position of the next equidistant cutting groove 902, the bearing plate 704 is moved, when the worker reaches the position of the next adjacent equidistant cutting groove 902, the worker positions the positioning spring pin 802 and the positioning circular groove 804 through the insertion connection, and the worker releases the insertion connection positioning of the positioning spring pin 802 and the positioning circular groove 804, directly pulls the handle 803 outwards, and separates the positioning spring pin 802 from the positioning circular groove 804.

Embodiment two: on the basis of the first embodiment, referring to fig. 1 to 15,

the spacing between the cutting equidistant dividing grooves 902 on the positioning pressing plate 901 is selected by replacing the whole positioning pressing plate 901, and the spacing between the cutting protective grooves 707 on the backing plate 705 correspondingly arranged and the positioning circular grooves 804 in the positioning control assembly 8 are also replaced and adjusted correspondingly.

Embodiment III: on the basis of the second embodiment, referring to fig. 16-19, for the adjustment of the equidistant cutting grooves 902 on the positioning platen 901 in the cutting positioning structure 9, the adjustment is realized by using the replacement assembly 10, so as to improve the working flexibility, the replacement assembly 10 comprises a frame groove 1001, a fixing plate 1002, a connecting clamping groove 1003, a first magnet piece 1004, a slitting regulation plate 1005, a connecting block 1006, a handle 1007, an elastic pressing pad 1008, a connecting plug 1009 and a second magnet piece 1010, the frame groove 1001 is arranged in the positioning platen 901, fixing plates 1002 are symmetrically and fixedly arranged on two sides of the frame groove 1001, connecting clamping grooves 1003 are equidistantly arranged on the fixing plate 1002, connecting plug 1009 are fixedly arranged in the connecting clamping grooves 1003, a second magnet piece 1010 is fixedly arranged at the bottom end of the connecting plug 1009, the connecting plug 1009 is fixedly arranged at the bottom end of the connecting block 1006, the connecting block 1006 is symmetrically and fixedly arranged at two ends of the slitting regulation plate 1005, the elastic pressing pad 1008 is fixedly arranged at the bottom side of the slitting regulation plate, the handle 1006 is fixedly arranged at the bottom of the connecting block 1005, the connecting plug 1003 is fixedly arranged at the same position as the connecting plug 1009, the connecting plug 1009 is correspondingly arranged with the connecting blocks 1003, and the positions of the two magnet pieces are correspondingly arranged, and the positions of the two magnet pieces are the same as the positions of the connecting plug 1009 and the two magnet pieces are correspondingly arranged; the cutting regulation plates 1005 are fixedly arranged in the frame groove 1001 at equal intervals, and two adjacent cutting regulation plates 1005 are provided with gaps, wherein the gaps are the cutting grooves when the cutting tool 6 works, and the distance between the cutting regulation plates 1005 can be correspondingly regulated according to actual cutting processing requirements.

For the later maintenance of more convenient and carry out local maintenance work, use replacement subassembly, and also have good convenience to the adjustment of the interval of cutting, through the regulation and control interval of cutting regulation and control board 1005 and change the regulation and control board 1005 of different width and realize, to the fixed work of installation of cutting regulation and control board 1005, connect the bayonet socket 1009 and the connection draw-in groove 1003 on the fixed plate 1002 through connecting block 1006 bottom, and fix a position through the mutual attraction of second magnet piece 1010 and first magnet piece 1004, the elastic pressing pad 1008 of setting in cutting regulation and control board 1005 bottom side is guaranteeing to compress tightly the graphite complex film, avoid causing the extrusion damage to it, have a guard action.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. The utility model provides a flexible graphite multilayer complex film location cutting device, includes workstation (1), fixedly on workstation (1) be provided with supporter (2), be connected on top one side of supporter (2) and be provided with slide rail (3), slide rail (3) bottom side connection is provided with automatically controlled sliding seat (4), and the bottom side of automatically controlled sliding seat (4) is fixed to be provided with control telescopic link (5), the bottom fixed of control telescopic link (5) is provided with cutting tool (6);

the method is characterized in that: the cutting and positioning device is characterized in that a cutting and bearing assembly (7) is connected and arranged on the workbench (1), a cutting and positioning structure (9) is connected and arranged on the cutting and bearing assembly (7), a positioning control assembly (8) is connected and arranged on one side of the cutting and bearing assembly (7), the cutting and positioning structure (9) compresses and positions a composite film, and performs cutting through a cutting tool (6), and the cutting and bearing assembly (7) comprises a bearing sliding seat (701), a positioning plate (702), a convex sliding block (703), a bearing plate (704), a base plate (705), mounting screws (706), a cutting protection groove (707) and auxiliary balls (708);

the positioning control assembly (8) comprises an L-shaped fixing rod (801), a positioning spring pin (802), a handle (803) and a positioning circular groove (804);

the cutting positioning structure (9) comprises a positioning pressing plate (901), a cutting equidistant dividing groove (902), a regulating groove (903), a movable body (904), an auxiliary spring (905), a butt joint slot (906), an auxiliary chute (907), a butt joint plug body (908), a fastening screw (909), a knob (910), a regulating pressing plate (911), a transmission column (912), a first reset spring (913), a T-shaped clamping plate (914) and a second reset spring (915);

the bearing sliding seat (701) is symmetrically arranged on the workbench (1), positioning plates (702) are symmetrically and fixedly arranged on two sides of the bearing sliding seat (701), the positioning plates (702) are fixed on the workbench (1) through screws, convex sliding blocks (703) are movably arranged in the bearing sliding seat (701), the convex sliding blocks (703) are symmetrically and fixedly arranged at the bottom ends of the bearing plates (704), auxiliary balls (708) are movably arranged at the bottom ends of the convex sliding blocks (703) in an equidistant embedding manner, backing plates (705) are fixedly arranged on the bearing plates (704) through mounting screws (706), cutting protection grooves (707) are equidistantly arranged on the backing plates (705), and the bearing plates (704) are arranged on the bearing sliding seat (701) and are used for positioning through a set positioning control assembly (8);

the L-shaped fixing rod (801) is fixedly arranged on one side of the bearing plate (704), a positioning spring pin (802) is movably arranged on the L-shaped fixing rod (801), a handle (803) is fixedly arranged at one end of the positioning spring pin (802), and the positioning circular grooves (804) are equidistantly arranged on one side of the bearing slide seat (701);

the positioning circular grooves (804) correspond to the cutting protection grooves (707) in arrangement positions, and the number of the arrangement groups is the same; the positioning circular groove (804) corresponds to the positioning spring pin (802) in the setting position, and the positioning circular groove and the positioning spring pin are in fit and clamping connection;

the utility model is characterized in that a cutting equidistant dividing groove (902) is arranged in the middle distance penetrating way of the positioning pressing plate (901), handles are symmetrically fixed at two ends of the positioning pressing plate (901), two regulating grooves (903) are arranged on the base plate (705), two regulating grooves (903) are arranged at intervals, a movable body (904) is movably arranged in the regulating grooves (903), an auxiliary spring (905) is fixedly arranged at one end of the movable body (904), one end of the auxiliary spring (905) is fixedly arranged at one side of the regulating grooves (903), a butt joint slot (906) is arranged in the movable body (904), an auxiliary chute (907) is arranged at one side of the butt joint slot (906), the butt-joint inserting body (908) is corresponding to the butt-joint inserting grooves (906) in setting positions and the same in setting group number, the butt-joint inserting body (908) and the butt-joint inserting groove are matched and inserted, the butt-joint inserting body (908) is symmetrically and fixedly arranged at the bottom side of the positioning pressing plate (901), a thread groove is formed in the butt-joint inserting body (908), the thread groove is in threaded connection with a fastening screw (909) in a matched and threaded manner, a knob (910) is fixedly arranged at one end of the fastening screw (909), the regulating pressing sheet (911) is movably arranged at one side of the butt-joint inserting body (908), a transmission column (912) is fixedly arranged at one end of the regulating pressing sheet (911), a first reset spring (913) is fixedly arranged at one end connected with the transmission column (912), one end of the first reset spring (913) is fixedly arranged in the butt-joint plug body (908), one end of the transmission column (912) extends into the thread groove, the end part of the transmission column is provided with an arc surface, the T-shaped clamping plate (914) is movably inserted in the butt-joint plug body (908), the T-shaped clamping plate (914) is fixedly connected with the second reset spring (915), one end of the second reset spring (915) is fixedly arranged in the butt-joint plug body (908), one end of the T-shaped clamping plate (914) extends into the thread groove, and the end part of the T-shaped clamping plate is provided with an auxiliary slope;

the cutting equidistant dividing grooves (902) correspond to the cutting protective grooves (707) in setting positions, and the number of the setting groups is the same;

to the adjustment work of cutting equidistance on location clamp plate (901) divides groove (902) in cutting location structure (9), realize through using replacement subassembly (10), improve its work flexibility, replacement subassembly (10) include frame groove (1001), fixed plate (1002), connect draw-in groove (1003), first magnet piece (1004), cut regulation and control board (1005), connecting block (1006), handle (1007), elasticity clamp pad (1008), connect inserted block (1009), second magnet piece (1010), frame groove (1001) set up in location clamp plate (901), and the bilateral symmetry in frame groove (1001) is fixed and is provided with fixed plate (1002), equidistance is provided with on fixed plate (1002) and connects draw-in groove (1003), fixedly in connecting draw-in groove (1003) be provided with first magnet piece (1004), and the looks adaptation is provided with in connecting draw-in groove (1003), the bottom fixed of location clamp plate (901) is provided with second magnet piece (1010), and connect insert block (1009) and fixedly set up in connecting block (1009) and cut bottom (1006) symmetry, the bottom (1008) is cut fixed in fixed plate (1005), the connecting plug blocks (1009) correspond to the connecting clamping grooves (1003) in setting positions and have the same setting group number, the second magnet sheets (1010) correspond to the first magnet sheets (1004) in setting positions and have the same setting group number, and the second magnet sheets and the first magnet sheets are attracted to each other;

the cutting regulation and control board (1005) equidistance is fixed to be set up in frame groove (1001), and two adjacent cutting regulation and control boards (1005) are provided with the clearance, and its clearance is the cutting groove of cutting cutter (6) during operation promptly, and cuts the distance between regulation and control board (1005) and can carry out corresponding regulation and control according to actual cutting processing demand.

2. A method of using the flexible graphite multilayer composite film positioning and cutting device of claim 1, wherein the method of using is:

in the cutting process, the graphite composite film is pressed and positioned through a cutting positioning structure (9), and extrusion damage to the graphite composite film is avoided on the basis of ensuring the stable position of the graphite composite film; then, the cutting load bearing assembly (7) is matched with the electric control sliding seat (4), the control telescopic rod (5) and the cutting tool (6) for cutting; the cutting equidistant dividing grooves (902) on the positioning pressing plate (901) in the cutting positioning structure (9) are correspondingly regulated and controlled to be replaced integrally, or the cutting flexibility is improved by using the replacement assembly (10), and the actual processing requirement can be met.

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