CN210280519U - Nickel screen cutting device - Google Patents

Abstract

The utility model relates to a nickel screen cutting device belongs to cutting equipment's technical field, which comprises a frame, be provided with in the frame and be used for installing the nickel screen and drive nickel screen pivoted installation mechanism, still install the bearing platform that is used for bearing nickel screen in the frame, still install the cutting mechanism who is used for cutting the nickel screen in the frame, cutting mechanism includes the lift part, and installs cutting blade on the lift part. The utility model discloses have the effect that can carry out high efficiency cutting to the nickel screen.

Description

Nickel screen cutting device

Technical Field

The utility model belongs to the technical field of cutting equipment's technique and specifically relates to a nickel screen cutting device is related to.

Background

The printed nickel screen is a cylinder made by electroforming method and using pure metal nickel as matrix and full of small holes with special structure, and is a very precise textile machinery accessory, and the hole pattern, hole density and pattern distribution of the printed nickel screen are changed by the type of the nickel screen. In the production process of the nickel screen, the flash, burr and the like at two ends of the nickel screen need to be cut off so as to determine the length of the final finished nickel screen.

In the existing nickel screen production process, a manual cutting mode is generally adopted for cutting the nickel screen, and a part needing to be cut is marked and marked manually, and then cut along the marked part by using scissors so as to cut the nickel screen.

The above prior art solutions have the following drawbacks: the cut flatness obtained by cutting in the mode is directly hooked with the proficiency of workers, and even if the workers are proficient, the cut flatness is high, so that the yield and the precision of the nickel screen are reduced, namely the cutting mode of the nickel screen is low in efficiency, and the production cost of enterprises is increased. There is therefore a need for a cutting apparatus that is capable of cutting nickel mesh with high efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a nickel screen cutting device, it has the effect that can carry out high-efficient cutting to the nickel screen.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a nickel screen cutting device, includes the frame, be provided with in the frame and be used for installing the nickel screen and drive nickel screen pivoted installation mechanism, still install the bearing platform that is used for bearing nickel screen in the frame, still install the cutting mechanism who is used for cutting the nickel screen in the frame, cutting mechanism includes the lift part, and installs cutting blade on the lift part.

Through adopting above-mentioned technical scheme, install the nickel screen on installation mechanism, installation mechanism can drive the nickel screen and rotate after the installation is accomplished, and the bearing platform carries out the bearing to the nickel screen at this in-process. After the nickel screen is installed, the cutting mechanism is started, the lifting component drives the cutting blade to lift, the nickel screen is cut in the circumferential direction through the relative rotation of the cutting blade and the nickel screen, so that burrs, fins and the like of the nickel screen can be cut off, and a parallel cut is obtained; and the nickel screen is cut in a mechanical mode, so that the efficiency is improved, and the labor intensity of workers is reduced.

The utility model discloses further set up to: and the bearing platform is provided with a limiting groove for the nickel screen to rotate and limit.

Through adopting above-mentioned technical scheme, the spacing groove can supply the nickel net to rotate to spacing with it, keeping the coaxial line of nickel net and installation mechanism, in order to improve the stability of nickel net among the cutting process.

The utility model discloses further set up to: the installation mechanism includes drive assembly, keeps away from cushion cap one end be provided with the shell in the frame, install in the inside cavity of shell drive assembly, drive assembly includes driving motor, driving motor has the bull stick through the coupling joint, driving motor's one end is kept away from to the bull stick runs through the shell to install the installation piece that is used for installing the nickel net.

Through adopting above-mentioned technical scheme, driving motor directly passes through the shaft coupling drive bull stick to directly drive the installation piece through the bull stick and rotate, the installation piece can drive the nickel screen and rotate, and its power transmission loss is little, has reduced the energy consumption, and the shell can form to shield driving part, keeps apart it with the external world, reduces the possibility that the workman is accidentally injured by driving part.

The utility model discloses further set up to: the side wall of the mounting block, which is close to one side of the rotating rod, is provided with a mounting groove in sliding connection with the rotating rod, the mounting groove is also provided with a positioning groove communicated with the mounting groove, and the peripheral side wall of the rotating rod is provided with a positioning block in sliding connection with the positioning groove; the mounting block is characterized in that a fastening groove is further formed in the peripheral side wall of the mounting block and communicated with the positioning groove, a fastening bolt is mounted in the fastening groove, a groove is formed in the positioning block, and the groove is connected with the fastening bolt through threads.

Through adopting above-mentioned technical scheme, when the nickel net of different specifications need use different installation pieces, then will change the installation piece, unscrew fastening bolt this moment, make fastening bolt and recess break away from the fastening state, can take off the installation piece and change. When the device operates, the positioning groove and the positioning block can transmit torque, and the possibility of relative sliding of the mounting block and the rotating rod is reduced.

The utility model discloses further set up to: and a cutting groove matched with the cutting blade is also circumferentially arranged on the circumferential side wall of the mounting block.

Through adopting above-mentioned technical scheme, when cutting mechanism cut the nickel screen, need avoid cutting mechanism to cut the installation piece as far as possible, and set up the cutting groove on the installation piece and can still leave the surplus on the stroke after cutting mechanism cuts the nickel screen to reduce the possibility that cutting mechanism cut the installation piece.

The utility model discloses further set up to: the two ends of the rack between the shell and the bearing platform are both provided with a baffle plate used for blocking splashed scraps, and the two ends of the baffle plate are respectively connected with the shell and the bearing platform.

Through adopting above-mentioned technical scheme, when carrying out the cutting of nickel net, have partial piece and splash, and the baffle that adds can block the piece, makes it fall on the mesa of frame, reduces the piece and splashes the influence to surrounding operational environment.

The utility model discloses further set up to: a bracket is further arranged on the rack between the shell and the supporting platform, the bracket comprises a hydraulic cylinder, the hydraulic cylinder is fixedly arranged on the rack, and a piston rod of the hydraulic cylinder is provided with two mutually crossed mounting rods; a first rotating roller is rotatably mounted on a piston rod of the hydraulic cylinder, a second rotating roller and a third rotating roller are respectively rotatably mounted on two mounting rods at one end far away from the hydraulic cylinder, and a first conveying belt is mounted on the first rotating roller and the second rotating roller; and second conveying belts are arranged on the first rotating roller and the third rotating roller on two sides of the first conveying belt.

Through adopting above-mentioned technical scheme, nickel net length is great, consequently add the bracket and can carry out the bearing to it, and first conveyer belt and second conveyer belt and nickel net contact can rotate under the drive of nickel net, and first conveyer belt and second conveyer belt then drive first commentaries on classics roller, second commentaries on classics roller and third commentaries on classics roller and rotate to become the running friction with the frictional force of nickel net and bracket, reduced the damage of bracket to nickel net. And after the installation block is replaced, the specification of the nickel screen is changed along with the change, the limiting groove cannot limit and support the nickel screen well, the position of the installation rod can be adjusted through the hydraulic cylinder, the positions of the first conveyor belt and the second conveyor belt are changed along with the change of the position of the first conveyor belt and the position of the second conveyor belt, the position relation between the bracket and the nickel screen is adjusted, the contact of the nickel screen and the first conveyor belt and the contact of the nickel screen and the second conveyor belt are kept, and the applicability of the bracket to the nickel screens with different specifications are improved.

The utility model discloses further set up to: the elevating system comprises an installing table, the installing table is installed installation mechanism below in the frame, just install elevator motor on the installing table, the installing table is outer install elevating gear in elevator motor's the pivot, elevator motor one side still there is branch through the support mounting on the installing table, rotate on the branch install with elevating gear meshing's sector gear keeps away from elevator motor one end install the piece that goes up and down on the sector gear, install the cutting bed on the piece that goes up and down, install on the cutting bed cutting blade, just cutting blade is in stretch into under elevator component's the promotion cutting is cut the nickel screen in the inslot.

Through adopting above-mentioned technical scheme, elevator motor starts to drive lifting gear and rotates to drive the sector gear rotation of meshing with it, then sector gear can drive the lift piece and go up and down, go up and down with the cutting bed that the drive was installed on the lift piece, and drive the cutting blade lift of installing on the cutting bed, and because the nickel screen rotates under the drive of installation piece, consequently relative rotation takes place for nickel screen and cutting blade, in order to carry out annular cutting to the nickel screen.

The utility model discloses further set up to: the lifting piece comprises a first lifting rod fixedly installed at one end, far away from the lifting gear, of the sector gear, and a first sliding block is rotatably installed on the first lifting rod at one end, far away from the sector gear, of the sector gear; the lifting piece further comprises a lifting table, the cutting table is mounted on the lifting table, a first sliding groove is formed in the side wall of the lifting table, close to one side of the first sliding block, and the first sliding groove is connected with the first sliding block in a sliding mode; the elevating platform is last still to rotate and to install the second lifter, the second lifter with first lifter is crisscross to be set up and rotates continuously, keeps away from elevating platform one end still rotate on the second lifter and install the second sliding block, branch is kept away from elevator motor one side install the second on the support and slide the groove, the second slide the groove with second sliding block sliding connection.

Through adopting above-mentioned technical scheme, can drive first lifter and rotate when sector gear rotates, first lifter rotates and then drives first sliding block and slide in first sliding groove to promote the elevating platform rebound. In the process that the lifting platform moves upwards, the second lifting rod which is rotationally connected with the lifting platform rotates along with the lifting platform, and drives the second sliding block to slide in the second sliding groove. The first lifting rod and the second lifting rod are matched to push the lifting platform to vertically move up and down, and the second lifting rod can improve the stability of the lifting platform during lifting.

The utility model discloses further set up to: keep away from first groove one side of sliding install the spacing ring on the lateral wall of elevating platform, slidable mounting has the gag lever post in the spacing ring, the one end of gag lever post with the frame is fixed continuous.

Through adopting above-mentioned technical scheme, spacing ring and gag lever post cooperation can carry out further spacingly to the elevating platform, stability when further improving the elevating platform and going up and down.

To sum up, the utility model discloses a beneficial technological effect does:

1. by arranging the mounting mechanism, the supporting platform and the cutting mechanism, the fins and burrs of the nickel screen are cut in a matching manner, so that the cutting efficiency of the nickel screen is improved, the labor intensity of workers is reduced, and a more level cut can be obtained;

2. by arranging the detachable mounting blocks, the nickel nets with different specifications can be cut only by replacing the mounting blocks with different specifications, so that the application range of the cutting device is widened;

3. the splash debris is blocked by arranging the baffle plate, so that the influence of the splash debris on the surrounding working environment is reduced;

4. the bracket capable of being adjusted in position in a lifting mode is arranged, so that nickel nets of different specifications can be supported, friction between the nickel nets and the bracket is converted into rotation friction, and friction damage of the bracket to the nickel nets is reduced;

5. through the cutting mechanism who sets up the liftable, can cut the nickel net of different specifications with installation mechanism cooperation, and the cutting of circumference can obtain more parallel and level incision.

Drawings

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

fig. 2 is a cross-sectional view of the lifting member of the present invention;

fig. 3 is a schematic structural view of the lifting member of the present invention;

FIG. 4 is a cross-sectional view of the mounting mechanism of the present invention;

fig. 5 is a schematic structural view of the bracket of the present invention.

In the figure, 1, a frame; 11. a support platform; 12. a limiting groove; 2. a cutting mechanism; 3. a lifting member; 31. an installation table; 32. a lifting motor; 33. a lifting gear; 34. a strut; 35. a sector gear; 36. a support; 4. a lifting member; 41. a first lifting rod; 42. a first sliding block; 43. a lifting platform; 44. a first sliding groove; 45. a second lifting rod; 46. a second sliding block; 47. a second sliding groove; 48. a limiting ring; 49. a limiting rod; 5. cutting table; 51. a cutting blade; 52. a housing; 53. a first housing; 54. a second housing; 55. a baffle plate; 6. an installation mechanism; 7. a drive member; 71. a drive motor; 72. a coupling; 73. a rotating rod; 8. mounting blocks; 81. cutting the groove; 82. mounting grooves; 83. positioning a groove; 84. positioning blocks; 85. a fastening groove; 86. fastening a bolt; 87. a groove; 9. a bracket; 91. a hydraulic cylinder; 92. mounting a rod; 93. a first rotating roller; 94. a second rotating roller; 95. a third roller; 96. a first conveyor belt; 97. a second conveyor belt.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figure 1, for the utility model discloses a nickel screen cutting device, including frame 1, install the cutting mechanism 2 that is used for cutting the nickel screen on the mesa of frame 1.

As shown in fig. 2 and 3, the cutting mechanism 2 includes a lifting member 3, the lifting member 3 includes a mounting table 31, and the mounting table 31 is fixedly mounted on one end of the table top of the machine frame 1. And a lifting motor 32 is installed on the installation platform 31, and a lifting gear 33 is fixedly installed on a rotating shaft of the lifting motor 32 outside the installation platform 31. A support rod 34 is further mounted on the mounting table 31 on one side of the lifting motor 32 through a support 36, a sector gear 35 meshed with the lifting gear 33 is rotatably mounted on the support rod 34, and a lifting piece 4 is mounted on the sector gear 35 on one end far away from the lifting motor 32.

The lifting member 4 comprises a first lifting rod 41 fixedly installed at one end of the sector gear 35 far away from the lifting gear 33, the axis of the first lifting rod 41 is perpendicular to the axis of the rotating shaft of the lifting motor 32, and a first sliding block 42 is rotatably installed on the first lifting rod 41 far away from one end of the sector gear 35. The lifting member 4 further comprises a lifting platform 43, a first sliding groove 44 is formed in the side wall of the lifting platform 43 close to one side of the first sliding block 42, and the first sliding groove 44 is connected with the first sliding block 42 in a sliding manner.

The end of the lifting platform 43 close to the side wall of the first sliding block 42 and far away from the first sliding groove 44 is also rotatably provided with a second lifting rod 45, and the second lifting rod 45 and the first lifting rod 41 are staggered and rotatably connected.

A second sliding block 46 is further rotatably mounted on the second lifting rod 45 far away from one end of the lifting platform 43, a second sliding groove 47 is further mounted on the support 36 on one side of the support rod 34 far away from the lifting motor 32, and the second sliding groove 47 is slidably connected with the second sliding block 46. The first lifting rod 41 and the second lifting rod 45 cooperate to vertically lift the lifting platform 43.

The both ends of keeping away from the lateral wall of the elevating platform 43 of first groove 44 one side of sliding all install spacing ring 48, and slidable mounting has gag lever post 49 in spacing ring 48, and the one end of gag lever post 49 is the free end, and the other end fixed mounting of gag lever post 49 is on the mesa of frame 1.

The upper surface of the lifting platform 43 is provided with a cutting table 5, and the cutting table 5 is provided with a cutting blade 51.

The table top of the machine frame 1 is further provided with a shell 52, the shell 52 comprises a first shell 53 which is arranged on the table top of the machine frame 1 on the peripheral side of the lifting table 43, the lifting table 43 is positioned in a channel which is enclosed by the first shell 53, and one side of the first shell 53 facing the table top of the machine frame 1 is communicated with the outside. And the first shell 53 is also provided with a second shell 54, and the second shell 54 is internally provided with an installation mechanism 6 for installing the nickel screen and driving the nickel screen to rotate.

As shown in fig. 2 and 4, the mounting mechanism 6 includes a driving component 7, the driving component 7 includes a driving motor 71 fixedly mounted in a cavity enclosed by the second housing 54, a rotating rod 73 is mounted on a rotating shaft of the driving motor 71 through a coupling 72, and the rotating rod 73 at an end far away from the driving motor 71 penetrates through the second housing 54 and is rotatably connected with the second housing 54. The rotating rod 73 outside the second shell 54 is provided with a mounting block 8 for mounting the nickel screen.

Wherein, the side wall of the mounting block 8 near the rotating rod 73 is provided with a mounting groove 82 connected with the rotating rod 73 in a sliding manner, the mounting groove 82 is further provided with a positioning groove 83 communicated with the mounting groove 82 along the length direction, and the peripheral side wall of the rotating rod 73 is provided with a positioning block 84 connected with the positioning groove 83 in a sliding manner. The rotating rod 73 drives the mounting block 8 to rotate through the matching transmission torque of the positioning block 84 and the positioning groove 83. A fastening groove 85 is further formed in the peripheral side wall of the mounting block 8, the axis of the fastening groove 85 is perpendicular to the axis of the mounting block 8, and a fastening bolt 86 is mounted in the fastening groove 85 through threads; the positioning block 84 is further provided with a groove 87 which is in threaded fit with the fastening bolt 86, and the positioning block 84 is matched with the groove 87 so as to detachably fasten the mounting block 8 on the rotating rod 73.

As shown in fig. 3 and 4, a cutting groove 81 matched with the cutting blade 51 is further formed in the circumferential direction on the circumferential side wall of the mounting block 8, and the cutting blade 51 is pushed by the lifting member 3 to extend into the cutting groove 81 to cut the nickel mesh.

As shown in fig. 1 and 2, a supporting table 11 for supporting the nickel mesh is mounted on the table surface of the frame 1 at the end far away from the lifting table 43. And the side wall of the supporting platform 11 far away from the side of the frame 1 is provided with an arc-shaped limiting groove 12, and the limiting groove 12 is used for the nickel screen to rotate and limit the nickel screen.

And the baffle 55 for blocking splashed debris is arranged at both ends of the frame 1 between the shell 52 and the supporting platform 11, and both ends of the baffle 55 are respectively connected with the shell 52 and the supporting platform 11.

As shown in fig. 1 and 5, a bracket 9 is further mounted on the top surface of the frame 1 between the mounting block 8 and the supporting platform 11, the bracket 9 includes a hydraulic cylinder 91 vertically and fixedly mounted on the top surface of the frame 1, and two mounting rods 92 which are mutually crossed and connected are mounted on a piston rod of the hydraulic cylinder 91. Wherein, a first roller 93 is rotatably mounted on the piston rod of the hydraulic cylinder 91 through a mounting bracket, and a second roller 94 and a third roller 95 are rotatably mounted on the two mounting rods 92 far away from one end of the hydraulic cylinder 91 through mounting brackets respectively. The first rotating roller 93 and the second rotating roller 94 are provided with a first conveyor belt 96, the first rotating roller 93 and the third rotating roller 95 on two sides of the first conveyor belt 96 are provided with a second conveyor belt 97, and the first conveyor belt 96 and the second conveyor belt 97 are matched to support the nickel mesh.

The implementation principle of the embodiment is as follows:

the nickel mesh is mounted on the mounting block 8, and the peripheral side wall of the mounting block 8 supports the nickel mesh to tighten it. In the process, the supporting platform 11 supports the nickel screen, and the limiting groove 12 limits the nickel screen and allows the nickel screen to rotate. After the nickel screen is installed, the driving motor 71 is started, the driving motor 71 drives the rotating rod 73 through the coupler 72, the mounting block 8 is directly driven to rotate through the rotating rod 73, and the mounting block 8 can drive the nickel screen to rotate.

The cutting mechanism 2 then needs to be activated to cut the nickel mesh circumferentially to remove flash, burrs, etc. from the nickel mesh and obtain a flush cut. At this time, the lifting motor 32 is started, and the lifting motor 32 drives the sector gear 35 meshed with the lifting gear 33 to rotate through the lifting gear 33, so that the sector gear 35 can drive the lifting member 4 to lift.

In the process, the sector gear 35 rotates, and the first lifting rod 41 connected with the sector gear 35 rotates and drives the first sliding block 42 to slide in the first sliding groove 44, so as to push the lifting platform 43 to lift. In the process of lifting the lifting platform 43, the second lifting rod 45 rotatably connected to the lifting platform 43 rotates along with the lifting platform, and drives the second sliding block 46 to slide in the second sliding groove 47. The first lifting rod 41 and the second lifting rod 45 are matched to push the lifting platform 43 to vertically move up and down, and the second lifting rod 45 can improve the stability of the lifting platform 43 during lifting. The added limit ring 48 and the limit rod 49 are matched to further limit the lifting platform 43, so that the stability of the lifting platform 43 during lifting is further improved.

When the lifting platform 43 is lifted, the cutting table 5 mounted on the lifting platform 43 is lifted, and the nickel mesh is driven by the mounting block 8 to rotate, so that the nickel mesh and the cutting blade 51 rotate relatively, the cutting blade 51 and the nickel mesh rotate relatively at high speed to cut the nickel mesh in the circumferential direction, and the cutting groove 81 formed in the circumferential side wall of the mounting block 8 can provide a stroke margin for the cutting blade 51, so as to reduce the possibility that the cutting blade 51 cuts the mounting block 8.

When the nickel screen is cut, part of scraps splash, and the additionally arranged baffle 55 can block the scraps to enable the scraps to fall on the table top of the rack 1, so that the collection and the treatment are convenient, and the influence of the scraps splash on the surrounding working environment is reduced.

When the nickel screen with different specifications needs to use the mounting blocks 8 with different specifications, the mounting blocks 8 need to be replaced. At this time, the fastening bolt 86 is loosened to disengage the fastening bolt 86 from the groove 87, and the mounting block 8 can be removed and replaced. In operation, the positioning slot 83 and the positioning block 84 can transmit torque to drive the mounting block 8 to rotate through the rotating rod 73, and the possibility of relative sliding between the mounting block 8 and the rotating rod 73 is reduced.

After the installation block 8 is replaced, the bearing platform 11 and the limiting groove 12 cannot well support the nickel screen effectively, the length of the nickel screen is large, and the nickel screen between the installation block 8 and the bearing platform 11 is easy to deform under the action of gravity of the nickel screen. At this time, the position of the mounting rod 92 can be adjusted by the hydraulic cylinder 91, and the positions of the first conveyor 96 and the second conveyor 97 are changed accordingly, thereby adjusting the positional relationship between the carriage 9 and the nickel mesh and maintaining the contact of the nickel mesh with the first conveyor 96 and the second conveyor 97. Then the bracket 9 can support the nickel screen, and because the first conveyor belt 96 and the second conveyor belt (97) are in contact with the nickel screen, the first conveyor belt 96 and the second conveyor belt (97) can be driven by the nickel screen to rotate, and drive the first rotating roller 93, the second rotating roller 94 and the third rotating roller 95 to rotate, so that the friction force between the nickel screen and the bracket 9 is changed into the rotating friction, and the damage of the bracket 9 to the nickel screen is reduced.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a nickel screen cutting device, includes frame (1), its characterized in that: be provided with in frame (1) and be used for installing the nickel net and drive nickel net pivoted installation mechanism (6), still install bearing platform (11) that are used for bearing nickel net on frame (1), still install cutting mechanism (2) that are used for cutting the nickel net on frame (1), cutting mechanism (2) are including lifting unit (3), and install cutting blade (51) on lifting unit (3).

2. The nickel mesh cutting apparatus according to claim 1, wherein: and the supporting platform (11) is provided with a limiting groove (12) for the nickel screen to rotate and limit.

3. The nickel mesh cutting apparatus according to claim 2, wherein: installation mechanism (6) are kept away from including driver part (7) bearing platform (11) one end be provided with shell (52) on frame (1), install in the inside cavity of shell (52) driver part (7), driver part (7) are including driving motor (71), driving motor (71) are connected with bull stick (73) through shaft coupling (72), the one end that driving motor (71) were kept away from in bull stick (73) runs through shell (52) to install installation piece (8) that are used for installing the nickel net.

4. The nickel mesh cutting apparatus according to claim 3, wherein: a mounting groove (82) in sliding connection with the rotating rod (73) is formed in the side wall, close to the rotating rod (73), of the mounting block (8), a positioning groove (83) communicated with the mounting groove (82) is further formed in the mounting groove (82), and a positioning block (84) in sliding connection with the positioning groove (83) is mounted on the peripheral side wall of the rotating rod (73); the mounting block is characterized in that a fastening groove (85) is further formed in the peripheral side wall of the mounting block (8), the fastening groove (85) is communicated with the positioning groove (83), a fastening bolt (86) is mounted in the fastening groove (85), a groove (87) is formed in the positioning block (84), and the groove (87) is connected with the fastening bolt (86) through threads.

5. The nickel mesh cutting apparatus according to claim 3 or 4, wherein: and a cutting groove (81) matched with the cutting blade (51) is also circumferentially arranged on the circumferential side wall of the mounting block (8).

6. The nickel mesh cutting apparatus according to claim 5, wherein: baffle plates (55) used for blocking splashed scraps are mounted at two ends of the rack (1) between the shell (52) and the bearing platform (11), and two ends of each baffle plate (55) are respectively connected with the shell (52) and the bearing platform (11).

7. The nickel mesh cutting apparatus according to claim 6, wherein: a bracket (9) is further mounted on the rack (1) between the shell (52) and the supporting platform (11), the bracket (9) comprises a hydraulic cylinder (91), the hydraulic cylinder (91) is fixedly mounted on the rack (1), and a piston rod of the hydraulic cylinder (91) is provided with two mutually crossed mounting rods (92); a first rotating roller (93) is rotatably mounted on a piston rod of the hydraulic cylinder (91), a second rotating roller (94) and a third rotating roller (95) are respectively rotatably mounted on two mounting rods (92) far away from one end of the hydraulic cylinder (91), and a first conveying belt (96) is mounted on the first rotating roller (93) and the second rotating roller (94); and a second conveyor belt (97) is arranged on the first rotating roller (93) and the third rotating roller (95) at two sides of the first conveyor belt (96).

8. The nickel mesh cutting apparatus according to claim 7, wherein: lifting unit (3) is including mount table (31), mount table (31) is installed installation mechanism (6) below on frame (1), just install elevator motor (32) on mount table (31), mount table (31) are outer install elevating gear (33) in elevator motor's (32) the pivot, elevator motor (32) one side still install branch (34) through support (36) on mount table (31), rotate on branch (34) install with elevating gear (33) meshed sector gear (35), keep away from elevator motor (32) one end install lift piece (4) on sector gear (35), install cutting bed (5) on lift piece (4), install on cutting bed (5) cutting blade (51), just cutting blade (51) are in stretch into under the promotion of elevator unit (3) to nickel in cutting groove (81) The web is cut.

9. The nickel mesh cutting apparatus according to claim 8, wherein: the lifting piece (4) comprises a first lifting rod (41) fixedly mounted at one end, far away from the lifting gear (33), of the sector gear (35), and a first sliding block (42) is rotatably mounted on the first lifting rod (41) at one end, far away from the sector gear (35); the lifting piece (4) further comprises a lifting table (43), the cutting table (5) is mounted on the lifting table (43), a first sliding groove (44) is formed in the side wall, close to one side of the first sliding block (42), of the lifting table (43), and the first sliding groove (44) is connected with the first sliding block (42) in a sliding mode; still rotate on elevating platform (43) and install second lifter (45), second lifter (45) with first lifter (41) crisscross setting and rotate continuously, keep away from elevating platform (43) one end still rotate on second lifter (45) and install second sliding block (46), branch (34) are kept away from elevator motor (32) one side install second sliding groove (47) on support (36), second sliding groove (47) with second sliding block (46) sliding connection.

10. The nickel mesh cutting apparatus according to claim 9, wherein: keep away from first groove (44) one side of sliding install spacing ring (48) on the lateral wall of elevating platform (43), slidable mounting has gag lever post (49) in spacing ring (48), the one end of gag lever post (49) with frame (1) is fixed continuous.

Images