CN217801917U - Large-scale strip cutting and bundling machine - Google Patents

Abstract

The utility model discloses a large-scale strip machine of bundling of cutting, including frame and setting main shaft driving motor, support material main shaft, diaxon removal module in the frame, the diaxon is provided with on removing the module and cuts the module, it is used for the bundle material that the bearing needs cut to hold in the palm the material main shaft, main shaft driving motor is used for the drive to hold in the palm the material main shaft and rotates, the diaxon removes the module and is used for the drive to cut the module and removes along the axial of holding in the palm the material main shaft and the radial direction of bundle material, it includes disc cutter and cutter driving motor to cut the module, cutter driving motor is used for driving disc cutter to rotate and the accessible disc cutter will become bundle material cutting and become to predetermine the size. The large-scale strip cutting and bundling machine has the advantage of high automation degree, can improve the production efficiency in actual application, saves the labor cost and improves the production benefit.

Description

Large-scale strip cutting and bundling machine

Technical Field

The utility model relates to a cutting equipment, especially a large-scale strip machine of bundling of cutting.

Background

For bales of cloth, leather, and the like, it is often necessary to cut them into long products of a suitable size using a slitter.

The existing slitter has the defect of low automation degree, the cutting efficiency is low, the consumed time and the labor cost are high when the slitter is applied, and a grinding cutter needs to be periodically detached, so that the production efficiency is influenced.

Therefore, the present invention is directed to provide a new technical solution to solve the existing technical drawbacks.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a large-scale strip cutting and bundling machine, which solves the technical defects of low automation degree, inconvenient operation, large labor intensity, high labor cost, low production efficiency and the like of the existing equipment.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a large-scale strip machine of bundling of cutting, includes the frame and sets up main shaft drive motor in the frame, holds in the palm material main shaft, diaxon removal module, the diaxon is provided with on removing the module and cuts the module, hold in the palm the material main shaft and be used for the bearing to cut the bundle material of bundling, main shaft drive motor is used for the drive to hold in the palm the material main shaft the radial direction of material rotation, the diaxon removes the module and is used for the drive to cut the module and removes along the axial of holding in the palm the material main shaft and bundle material, it includes disc cutter and cutter driving motor to cut the module, cutter driving motor is used for driving disc cutter rotation and accessible disc cutter to cut into the preset size with bundle material.

As a further improvement of the above technical scheme, the cutting module further comprises a cutting module base plate and a cutter mounting seat mounted on the cutting module base plate, a cutter rotating shaft is arranged on the cutter mounting seat, the disc cutter is mounted at one end of the cutter rotating shaft, a cutter speed reducer is arranged at the output end of the cutter driving motor, a driving belt pulley is arranged at the output end of the cutter speed reducer, a cutter driven belt pulley is arranged at the other end of the cutter rotating shaft, a cutter driving belt is arranged between the cutter driving belt pulley and the cutter driven belt pulley in a winding manner, and the cutter driving motor can drive the cutter rotating shaft to rotate and further drive the disc cutter to rotate through the cutter rotating shaft.

As a further improvement of the above technical scheme, a cross sliding table is arranged on the cutting module base plate, an output end of the cross sliding table is provided with a grinding wheel driving motor, an output end of the grinding wheel driving motor is provided with a first grinding wheel, and the first grinding wheel is used for grinding a first knife edge face of the disc cutter.

As a further improvement of the above technical scheme, the cutting module base plate output end is further provided with a first adapter, the first adapter is provided with a first adapter, the end of the first adapter is provided with a second adapter, the second adapter is provided with a second adapter, the end of the second adapter is provided with a third adapter, the third adapter is provided with a third adapter, the end of the third adapter is provided with a second grinding wheel, and the second grinding wheel is used for grinding a second cutting edge surface of the disc cutter.

As a further improvement of the technical scheme, the two-axis moving module comprises an X-axis moving assembly and a Y-axis moving assembly, wherein the X-axis moving assembly is installed on the rack, the Y-axis moving assembly is arranged at the output end of the X-axis moving assembly, and the cutting module is arranged at the output end of the Y-axis moving assembly.

As a further improvement of the above technical scheme, the X-axis moving assembly comprises an X-axis driving motor, an X-axis screw nut pair and an X-axis guide rail which are fixed on the frame, an X-axis sliding mounting plate is arranged on the X-axis guide rail, the nut of the X-axis screw nut pair is fixedly connected to the X-axis sliding mounting plate, the output end of the X-axis driving motor is connected to one end of a screw rod of the X-axis screw nut pair, the Y-axis moving assembly is arranged on the X-axis sliding mounting plate, and the X-axis driving motor can drive the X-axis sliding mounting plate and the Y-axis moving assembly to move on the X-axis guide rail through the X-axis screw nut pair.

As a further improvement of the above technical solution, the Y-axis moving assembly includes a Y-axis driving motor installed at an output end of the X-axis moving assembly, a Y-axis screw nut pair, and a Y-axis guide rail, the Y-axis guide rail is directly or indirectly provided with the cutting module, a nut of the Y-axis screw nut pair is fixedly connected to the cutting module, an output end of the Y-axis driving motor is connected to one end of a screw of the Y-axis screw nut pair and can drive the cutting module to move on the Y-axis guide rail through the Y-axis screw nut pair.

As a further improvement of the above technical scheme, the rack is further provided with a tail tip jacking shaft assembly for fixing the free end of the material supporting main shaft, the tail tip jacking shaft assembly comprises a tail tip bottom plate fixed on the rack and a tail tip supporting seat fixed on the tail tip bottom plate, the tail tip supporting seat is hinged with a tail tip jacking shaft seat and a tail tip swing arm, a tail tip connecting rod is hinged between the free end of the tail tip jacking shaft seat and the free end of the tail tip swing arm, the side part of the upper end of the tail tip jacking shaft seat is provided with a tail tip positioning sleeve for being sleeved on the end part of the free end of the material supporting main shaft, the free end of the tail tip swing arm is provided with a tail tip handle, one end of the tail tip connecting rod is hinged with the tail tip swing arm through the tail tip handle, and the side part of the tail tip swing arm is further provided with a tail tip limiting piece.

As a further improvement of the above technical scheme, the material supporting main shaft is rotatably mounted on the frame through a main shaft sleeve, a main shaft driving pulley is arranged at an output end of the main shaft driving motor, a main shaft driven pulley is arranged at one end of the material supporting main shaft, a main shaft driving belt is wound between the main shaft driving pulley and the main shaft driven pulley, and the main shaft driving motor can drive the material supporting main shaft to rotate through the main shaft driving pulley, the main shaft driven pulley and the main shaft driving belt and further drive the bundled material sleeved on the material supporting main shaft to rotate through the material supporting main shaft.

The beneficial effects of the utility model are that: the utility model provides a large-scale strip machine of bundling of cutting, this kind of large-scale strip machine of bundling accessible diaxon remove the module and drive and cut the module and remove along X axle, Y axle, and then utilize the disc cutter that cuts in the module to cut to the bale material, have the characteristics that degree of automation is high, can promote production efficiency when using, save artifical and time cost, promote the productivity effect of enterprise.

To sum up, the large-scale strip cutting and bundling machine solves the technical defects of low automation degree, inconvenient operation, high labor intensity, high labor cost, low production efficiency and the like of the existing equipment.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is an assembly schematic of the present invention;

FIG. 2 is a schematic view of another angle of the present invention;

fig. 3 is a schematic structural diagram of a two-axis moving module according to the present invention;

FIG. 4 is a schematic structural diagram of a cutting module according to the present invention;

FIG. 5 is another schematic structural diagram of the cutting module of the present invention;

fig. 6 is a schematic structural view of the middle tail pin top shaft assembly of the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection relations related in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The technical features of the present invention can be combined interactively without conflicting with each other, as shown in fig. 1-6.

The utility model provides a large-scale strip machine of bundling of cutting, includes frame 1 and sets up main shaft driving motor 21, holds in the palm material main shaft 22, diaxon removal module in frame 1, specifically, hold in the palm material main shaft 22 and rotationally install in frame 1 through main shaft sleeve 23, the output of main shaft driving motor 21 is provided with main shaft driving pulley 24, the one end of holding in the palm material main shaft 22 is provided with main shaft driven pulley 25, around being equipped with main shaft driving belt between main shaft driving pulley 24 and the main shaft driven pulley 25, main shaft driving motor 21 accessible main shaft driving pulley 24, main shaft driven pulley 25 and main shaft driving belt drive hold in the palm material main shaft 22 and rotate and further drive the cover through holding in the palm material main shaft 22 and establish bundle material 9 rotation on holding in the palm material main shaft 22. The two-axis moving module is provided with a cutting module 5, the material supporting main shaft 22 is used for supporting bundled materials 9 to be cut, the main shaft driving motor 21 is used for driving the material supporting main shaft 22 to rotate, the two-axis moving module is used for driving the cutting module 5 to move along the axial direction of the material supporting main shaft 22 and the radial direction of the bundled materials 9, the cutting module 5 comprises a disc cutter 51 and a cutter driving motor 52, and the cutter driving motor 52 is used for driving the disc cutter 51 to rotate and cutting the bundled materials 9 into preset sizes through the disc cutter 51. The automatic material supporting device is characterized in that the rack 1 is further provided with a tail tip jacking shaft assembly 7 used for fixing the free end of the material supporting main shaft 22, the tail tip jacking shaft assembly 7 comprises a tail tip bottom plate 71 fixed on the rack 1 and a tail tip supporting seat 72 fixed on the tail tip bottom plate 71, a tail tip jacking shaft seat 73 and a tail tip swing arm 74 are hinged on the tail tip supporting seat 72, a tail tip connecting rod 75 is hinged between the free end of the tail tip jacking shaft seat 73 and the free end of the tail tip swing arm 74, the upper end side of the tail tip jacking shaft seat 73 is provided with a tail tip positioning sleeve 76 used for being sleeved on the end part of the free end of the material supporting main shaft 22, the free end of the tail tip swing arm 74 is provided with a tail tip handle 77, one end of the tail tip connecting rod 75 is hinged with the tail tip swing arm 74 through the tail tip handle 77, and the side part of the tail tip swing arm 74 is further provided with a tail tip limiting piece 78.

Preferably, the cutting module 5 further comprises a cutting module bottom plate 53 and a cutter mounting seat 54 mounted on the cutting module bottom plate 53, a cutter rotating shaft 55 is arranged on the cutter mounting seat 54, the disc cutter 51 is mounted at one end of the cutter rotating shaft 55, a cutter speed reducer 56 is arranged at the output end of the cutter driving motor 52, a driving belt pulley 57 is arranged at the output end of the cutter speed reducer 56, a cutter driven belt pulley 58 is arranged at the other end of the cutter rotating shaft 55, a cutter driving belt is wound between the cutter driving belt pulley 57 and the cutter driven belt pulley 58, and the cutter driving motor 52 can drive the cutter rotating shaft 55 to rotate through the cutter rotating shaft 56, the cutter driving belt pulley 57, the cutter driven belt pulley 58 and the cutter driving belt and further drive the disc cutter 51 to rotate through the cutter rotating shaft 55. The cutting module bottom plate 53 is provided with a cross sliding table 60, the output end of the cross sliding table 60 is provided with a grinding wheel driving motor 68, the output end of the grinding wheel driving motor 68 is provided with a first grinding wheel 69, and the first grinding wheel 69 is used for grinding the first blade face of the disc cutter 51. The output end of the cutting module bottom plate 53 is further provided with a first transfer base 61, a first transfer shaft 62 is arranged on the first transfer base 61, the end portion of the first transfer shaft 62 is provided with a second transfer base 63, a second transfer shaft 64 is arranged on the second transfer base 63, a third transfer base 65 is arranged on the end portion of the second transfer shaft 64, a third transfer shaft 66 is arranged on the third transfer base 65, the end portion of the third transfer shaft 66 is provided with a second grinding wheel 67, and the second grinding wheel 67 is used for grinding a second cutting edge face of the disc cutter 51.

Preferably, the two-axis moving module comprises an X-axis moving component 3 mounted on the frame 1 and a Y-axis moving component 4 disposed at an output end of the X-axis moving component 3, and the cutting module 5 is disposed at an output end of the Y-axis moving component 4. X axle removes subassembly 3 including fixing the vice 32 of X axle driving motor 31, X axle screw nut, the X axle guide rail 33 on frame 1, be provided with X axle sliding mounting board 34 on the X axle guide rail 33, the nut fixed connection of the vice 32 of X axle screw nut is to X axle sliding mounting board 34, X axle driving motor 31's output is connected to the lead screw one end of the vice 32 of X axle screw nut and, Y axle removes subassembly 4 and installs on X axle sliding mounting board 34, X axle driving motor 31 accessible X axle screw nut is vice 32 drives X axle sliding mounting board 34 and Y axle removes subassembly 4 and moves at X axle guide rail 33. Y axle removes subassembly 4 is including installing Y axle driving motor 41, the vice 42 of Y axle lead screw nut, the Y axle guide rail 43 at the output of X axle removal subassembly 3, direct or indirect be provided with on the Y axle guide rail 43 cut module 5, the vice 42 nut fixed connection of Y axle lead screw nut to cut module 5, the output of Y axle driving motor 41 is connected to the vice 42 lead screw one end of Y axle lead screw nut and the vice 42 drive of accessible Y axle lead screw nut and cuts module 5 and move on Y axle guide rail 43.

Specific implementation the utility model discloses the time, through controlling tail tip apical axis subassembly 7, will hold in the palm the one end of material main shaft 22 and open, then will become bundle material 9 and embolia on holding in the palm material main shaft 22, then will become bundle material 9 locking on holding in the palm material main shaft 22 through tail tip apical axis subassembly 7, after the work of beginning cutting, main shaft drive motor 21 drive holds in the palm material main shaft 22 and becomes bundle material 9 and rotate, and X axle removal subassembly 3 and Y axle removal subassembly 4 control simultaneously cut module 5 along the axial and the radial movement who holds in the palm material main shaft 22, utilize disc cutter 51 to realize cutting the function. When the cutting time is too long, the disc cutter 51 is polished by automatically controlling the first grinding wheel 69 and the second grinding wheel 67, the disc cutter 51 is kept in a sharp state, and the cutting efficiency and the cutting quality are improved.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (9)

1. A large-scale strip cutting and bundling machine is characterized in that: including frame (1) and set up main shaft driving motor (21), support material main shaft (22), diaxon and remove the module in frame (1), be provided with on the diaxon removes the module and cuts module (5), support material main shaft (22) and be used for the bearing to need the bale material (9) of cutting, main shaft driving motor (21) are used for the drive to hold in the palm material main shaft (22) and rotate, diaxon removes the module and is used for the drive to cut module (5) and removes along the axial of holding in the palm material main shaft (22) and the radial direction of bale material (9), it includes disc cutter (51) and cutter driving motor (52) to cut module (5), cutter driving motor (52) are used for driving disc cutter (51) to rotate and accessible disc cutter (51) will bale material (9) cut into and predetermine the size.

2. A large slitter according to claim 1, wherein: the cutting module (5) further comprises a cutting module bottom plate (53) and a cutter mounting seat (54) mounted on the cutting module bottom plate (53), a cutter rotating shaft (55) is arranged on the cutter mounting seat (54), a disc cutter (51) is mounted at one end of the cutter rotating shaft (55), a cutter speed reducer (56) is arranged at the output end of the cutter driving motor (52), a driving belt pulley (57) is arranged at the output end of the cutter speed reducer (56), a cutter driven belt pulley (58) is arranged at the other end of the cutter rotating shaft (55), a cutter driving belt is wound between the cutter driving belt pulley (57) and the cutter driven belt pulley (58), and the cutter driving motor (52) can drive the cutter rotating shaft (55) to rotate through the cutter speed reducer (56), the cutter driving belt pulley (57), the cutter driven belt pulley (58) and the cutter driving belt and further drive the disc cutter (51) to rotate through the cutter rotating shaft (55).

3. A large slitter according to claim 2, wherein: the cutting module is characterized in that a cross sliding table (60) is arranged on the cutting module bottom plate (53), the output end of the cross sliding table (60) is provided with a grinding wheel driving motor (68), the output end of the grinding wheel driving motor (68) is provided with a first grinding wheel (69), and the first grinding wheel (69) is used for grinding a first blade face of the disc cutter (51).

4. A large slitter according to claim 3, wherein: the utility model discloses a cutting module bottom plate (53) output still is provided with first switching seat (61), be provided with first switching axle (62) on first switching seat (61), first switching axle (62) tip is provided with second switching seat (63), be provided with second switching axle (64) on second switching seat (63), second switching axle (64) tip is provided with third switching seat (65), be provided with third switching axle (66) on third switching seat (65), third switching axle (66) tip is provided with second emery wheel (67), second emery wheel (67) are used for polishing the second cutting edge face of disc cutter (51).

5. A large slitter for cutting and baling as in claim 1, further comprising: the two-axis moving module comprises an X-axis moving assembly (3) installed on the rack (1) and a Y-axis moving assembly (4) arranged at the output end of the X-axis moving assembly (3), and the cutting module (5) is arranged at the output end of the Y-axis moving assembly (4).

6. A large slitter according to claim 5, characterised in that: x axle removes subassembly (3) including fixing X axle driving motor (31), the vice (32) of X axle screw nut, X axle guide rail (33) on frame (1), be provided with X axle sliding mounting board (34) on X axle guide rail (33), the nut fixed connection of the vice (32) of X axle screw nut is to on X axle sliding mounting board (34), the output of X axle driving motor (31) is connected to the lead screw one end of the vice (32) of X axle screw nut and, Y axle removes subassembly (4) and installs on X axle sliding mounting board (34), X axle driving motor (31) accessible X axle screw nut is vice (32) drives X axle sliding mounting board (34) and Y axle removes subassembly (4) and moves in X axle guide rail (33).

7. A large slitter according to claim 5, characterised in that: y axle removes subassembly (4) is including installing Y axle driving motor (41), Y axle lead screw nut pair (42), Y axle guide rail (43) at the output of X axle removal subassembly (3), be provided with directly or indirectly on Y axle guide rail (43) cut module (5), the nut fixed connection of Y axle lead screw nut pair (42) to cut module (5), the output of Y axle driving motor (41) is connected to the lead screw one end of Y axle lead screw nut pair (42) and accessible Y axle lead screw nut pair (42) drives and cuts module (5) and move on Y axle guide rail (43).

8. A large slitter according to claim 1, wherein: the automatic material supporting device is characterized in that a tail tip top shaft assembly (7) used for fixing the free end of the material supporting main shaft (22) is further arranged on the rack (1), the tail tip top shaft assembly (7) comprises a tail tip bottom plate (71) fixed on the rack (1) and a tail tip supporting seat (72) fixed on the tail tip bottom plate (71), a tail tip top shaft seat (73) and a tail tip swing arm (74) are hinged to the tail tip supporting seat (72), a tail tip connecting rod (75) is hinged between the free end of the tail tip top shaft seat (73) and the free end of the tail tip swing arm (74), a tail tip positioning sleeve (76) used for being sleeved on the free end of the material supporting main shaft (22) is arranged on the lateral portion of the upper end of the tail tip top shaft seat (73), a tail tip handle (77) is arranged at the free end of the tail tip swing arm (74), one end of the tail tip connecting rod (75) is hinged to the tail tip swing arm (74) through the tail tip handle (77), and a tail tip limiting piece (78) is further arranged on the lateral portion of the tail tip swing arm (74).

9. A large slitter for cutting and baling as in claim 1, further comprising: the material supporting main shaft (22) is rotatably installed on the rack (1) through a main shaft sleeve (23), the output end of the main shaft driving motor (21) is provided with a main shaft driving belt pulley (24), one end of the material supporting main shaft (22) is provided with a main shaft driven belt pulley (25), a main shaft driving belt is wound between the main shaft driving belt pulley (24) and the main shaft driven belt pulley (25), the main shaft driving motor (21) can drive the material supporting main shaft (22) to rotate through the main shaft driving belt pulley (24), the main shaft driven belt pulley (25) and the main shaft driving belt and further drive the bundled material (9) sleeved on the material supporting main shaft (22) to rotate through the material supporting main shaft (22).

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