CN217801992U - High-precision paperboard slitting device - Google Patents

Abstract

The utility model relates to a high-accuracy cardboard segmentation device of cardboard segmentation technical field, including the operation panel, the second slider is seted up to operation panel inside and is led to the groove and the segmentation leads to the groove, and the second slider leads to the groove symmetry and has seted up two sets ofly, and the second slider leads to inslot portion and is equipped with the transmission toothed disc, and transmission toothed disc symmetry is equipped with two sets ofly, and two sets of transmission toothed discs pass through transmission shaft fixed connection, and the transmission shaft runs through behind the transmission toothed disc through gear fixed block fixed connection operation panel, and transmission gear dish surface is equipped with the transmission crank. Compared with the prior art, through the segmentation mechanism, transmission gear dish, transmission crank, gear fixed block and the precision scale table that set up, the device of being convenient for rotates transmission gear dish through the transmission crank in the use, and the translation is controlled through gear drive segmentation mechanism to transmission gear dish reaches the distance of adjustment segmentation blade and cardboard baffle to gain accurate data through the precision scale table, improved this device cutting off-the-shelf precision.

Description

High-precision paperboard slitting device

Technical Field

The utility model relates to a cardboard segmentation technical field especially relates to a high-accuracy cardboard segmentation device.

Background

The paperboard is also called paperboard. The thick paper sheet is made up by using various paper pulps and making them be mutually interwoven. The distinction between paperboard and paper is generally distinguished by basis weight and caliper, generally referring to paperboard having a basis weight in excess of 250g/m2 and a caliper greater than 0.5mm, otherwise: paper having a thickness greater than 0.1mm is generally referred to as paperboard. Generally, a basis weight of less than 250g/m2 is considered paper, and a basis weight of 250g/m2 or more is considered paperboard.

Although the paperboard cutting device disclosed by the authorized publication number of CN208681731U solves the problems that the height of a compression roller cannot be adjusted, support plates with different thicknesses cannot be conveniently and fixedly compressed, the application range is small, the cutting width of a cover plate support plate cannot be adjusted, the cost is wasted, and the practicability is weak, the size of the paperboard cutting is not accurate enough, a finished product is not qualified, the compression roller still needs to be manually adjusted before cutting, and the paperboard cutting device is very inconvenient.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a high-accuracy cardboard segmentation device has the ability of high accuracy segmentation, and need not the manual regulation compression roller to the quick convenient cutting cardboard of staff has solved the problem that traditional cardboard segmentation device precision is low to influence finished product quality.

The technical scheme of the utility model is that:

the utility model provides a high-accuracy cardboard segmentation device, includes the operation panel, the inside second slider that has seted up of operation panel leads to the groove and the segmentation leads to the groove, the second slider leads to the groove symmetry and has seted up two sets ofly, the inside transmission toothed disc that is equipped with of groove is led to the second slider, transmission toothed disc symmetry is equipped with two sets ofly, and is two sets of transmission toothed disc passes through transmission shaft fixed connection, the transmission shaft runs through behind the transmission toothed disc through gear fixed block fixed connection operation panel, transmission gear dish surface is equipped with the transmission crank, operation panel front surface printing has first graduation apparatus, first graduation apparatus right side printing has the precision graduation apparatus, the operation panel leads to groove swing joint through two sets of second sliders and divides the mechanism.

In a further technical scheme, a compaction top plate is assembled on the left side of the splitting mechanism, an elastic sleeve is assembled on the lower side of the compaction top plate, a compaction bottom plate is assembled on the lower side of the elastic sleeve, two groups of elastic sleeves are assembled, a spring is assembled in each elastic sleeve, a vertical groove is formed in each elastic sleeve, and a limiting block is assembled in each vertical groove.

In a further technical scheme, the slitting mechanism includes that stand, crossbeam, blade motor, slitting blade, first sliding block, second sliding block, stand lead to groove, rotating electrical machines, third sliding block, screw thread sliding block, connecting plate and roller lead screw, the stand is equipped with two sets ofly, two sets ofly the stand downside all is equipped with the second sliding block, and is two sets of crossbeam fixed connection is passed through to the stand, and is two sets of stand inside has all seted up the stand and has led to the groove, and is two sets of the stand surface all overlaps and is equipped with first sliding block, two sets of first sliding block passes through compaction roof fixed connection, be equipped with the third sliding block on the crossbeam, third sliding block downside is equipped with electric telescopic handle, the welding of electric telescopic handle downside has the screw thread sliding block, screw thread sliding block inside is equipped with the roller lead screw, the roller lead screw runs through behind two sets of stand logical groove and the screw thread sliding block with rotating electrical machines welded fastening, rotating electrical machines and first sliding block one side welded fastening, the screw thread sliding block downside is equipped with the connecting plate, the welding of connecting plate downside has the blade motor, the left side is equipped with the slitting blade.

In a further technical scheme, the second sliding block is matched with the through groove of the second sliding block, a gear rack is assembled on the lower side of the second sliding block, and the gear rack is matched with the transmission gear disc.

In a further technical scheme, a dial gauge is printed on the surface of the right side column, the separation height of the compaction bottom plate is smaller than that of the cutting blade in a non-working state, and the cutting through groove is formed right below the cutting blade.

In a further technical scheme, baffle clamping grooves are formed in the front side and the rear side of the operating platform, baffle clamping tenons are assembled inside the baffle clamping grooves, and two groups of paperboard baffles are assembled on the upper sides of the baffle tenons.

In a further technical scheme, the operation panel downside is equipped with the multiunit supporting legs, electric telescopic handle passes through the wire and is connected with external power, cardboard baffle and baffle trip formula structure as an organic whole, stand and second sliding block formula structure as an organic whole, first sliding block and compaction roof formula structure as an organic whole.

The utility model has the advantages that:

1. compared with the prior art, through the segmentation mechanism, transmission gear dish, transmission crank, gear fixed block and the precision scale table that set up, the device of being convenient for rotates transmission gear dish through the transmission crank in the use, and the translation is controlled through gear drive segmentation mechanism to transmission gear dish reaches the distance of adjustment segmentation blade and cardboard baffle to gain accurate data through the precision scale table, improved this device cutting off-the-shelf precision.

2. Compared with the prior art, through the compaction roof that sets up, elasticity sleeve and compaction bottom plate, the device of being convenient for is in the use, continuously promote the compaction bottom plate downwards through elasticity sleeve, make it compress tightly the cardboard that waits to cut, because of the first sliding block formula structure as an organic whole in compaction roof and the slitting mechanism, make elasticity sleeve and compaction bottom plate can be along with slitting structure synchronous motion, the step of manual regulation compression roller has been reduced, make cardboard slitting device can use more convenient efficient in the course of the work.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a splitting mechanism according to an embodiment of the present invention;

fig. 3 is a left side view of a slitting mechanism according to an embodiment of the present invention;

fig. 4 is a top view of the console of the embodiment of the present invention.

Description of reference numerals:

1. an operation table; 2. a paperboard baffle; 3. blocking tenons of the baffle plates; 4. a cutting mechanism; 5. a first scale; 6. a precision scale; 7. a transmission gear plate; 8. a gear fixing block; 9. a baffle plate clamping groove; 10. a second slider through groove; 11. cutting the through groove; 12. compacting the top plate; 13. an elastic sleeve; 14. compacting the bottom plate; 41. a column; 42. a cross beam; 43. a blade motor; 44. cutting a blade; 45. a first slider; 46. a second slider; 47. a column through groove; 48. a rotating electric machine; 49. a third slider; 410. a threaded sliding block; 411. a connecting plate; 412. a roller screw rod; 71. a transmission crank; 72. a drive shaft.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Example (b):

as shown in fig. 1-4, a high-precision paperboard cutting device, including operation panel 1, the second slider that has seted up inside operation panel 1 leads to groove 10 and cuts and lead to groove 11, the second slider leads to groove 10 symmetry and has seted up two sets ofly, the second slider leads to the inside transmission gear dish 7 that is equipped with of groove 10, transmission gear dish 7 symmetry is equipped with two sets ofly, two sets of transmission gear dishes 7 pass through transmission shaft 72 fixed connection, transmission shaft 72 runs through transmission gear dish 7 back through 8 fixed connection operation panel 1 of gear fixed block, transmission gear dish 7 surface assembly has transmission crank 71, the surface printing has first graduation apparatus 5 before operation panel 1, the printing of first graduation apparatus 5 right side has precision graduation apparatus 6, operation panel 1 leads to groove 10 swing joint through two sets of second sliders and cuts dividing mechanism 4.

The working principle of the technical scheme is as follows:

at first, rotate transmission gear dish 7 through transmission crank 71, transmission gear dish 7 passes through the translation about gear drive segmentation mechanism 4, reaches the function of adjustment segmentation blade 44 and 2 distances of cardboard baffle to gain accurate data through precision scale table 6, improved the off-the-shelf precision of this device cutting.

In another embodiment, as shown in fig. 1, the left side of the splitting mechanism 4 is equipped with a compaction top plate 12, the lower side of the compaction top plate 12 is equipped with an elastic sleeve 13, the lower side of the elastic sleeve 13 is equipped with a compaction bottom plate 14, the elastic sleeves 13 are equipped with two sets, the elastic sleeve 13 is equipped with a spring inside, the elastic sleeve 13 is equipped with a vertical groove inside, and the vertical groove is equipped with a limit block inside.

Continuously promote compaction bottom plate 14 downwards through the inside spring of elasticity sleeve 13, make it compress tightly the cardboard that waits to cut, because of compaction roof 12 and the first sliding block 45 formula structure as an organic whole in the slitting mechanism 4 for elasticity sleeve 13 and compaction bottom plate 14 can be along with slitting structure synchronous motion, have reduced the step of manual regulation compression roller, make cardboard slitting device can use more convenient efficient in the course of the work.

In another embodiment, as shown in fig. 2-3, the splitting mechanism 4 includes two sets of columns 41, a cross beam 42, a blade motor 43, a splitting blade 44, a first sliding block 45, a second sliding block 46, a column through slot 47, a rotating motor 48, a third sliding block 49, a threaded sliding block 410, a connecting plate 411, and a roller screw 412, the two sets of columns 41 are assembled, the second sliding blocks 46 are assembled on the lower sides of the two sets of columns 41, the two sets of columns 41 are fixedly connected through the cross beam 42, the column through slots 47 are formed inside the two sets of columns 41, the first sliding blocks 45 are sleeved on the outer surfaces of the two sets of columns 41, two sets of first sliding blocks 45 are through compaction roof 12 fixed connection, be equipped with third sliding block 49 on the crossbeam 42, third sliding block 49 downside is equipped with electric telescopic handle, electric telescopic handle downside welding has screw thread sliding block 410, screw thread sliding block 410 internal assembly has roller lead screw 412, roller lead screw 412 runs through behind two sets of stand logical groove 47 and the screw thread sliding block 410 and the rotating electrical machines 48 welded fastening, rotating electrical machines 48 and first sliding block 45 one side welded fastening, screw thread sliding block 410 downside is equipped with connecting plate 411, the welding of connecting plate 411 downside has blade motor 43, blade motor 43 left side is equipped with segmentation blade 44.

Rotation through rotating electrical machines 48 drives roller lead screw 412 and rotates, and roller lead screw 412 drives screw sliding block 410 lateral shifting through the screw thread of its surface when rotating, and cooperation electric telescopic handle's downwardly extending for segmentation blade 44 can convenient cutting cardboard, and rotating electrical machines 48 and first sliding block 45 one side welded fastening, when having improved structural strength, make electric telescopic handle can drive roller lead screw 412, screw sliding block 410 and rotating electrical machines 48 carry out the up-and-down motion.

In another embodiment, as shown in fig. 2-4, the second slider 46 fits into the second slider through slot 10, and the gear rack is mounted on the lower side of the second slider 46 and fits into the transmission gear disk 7.

The second sliding block 46 and the second sliding block are matched with each other through the groove 10, so that the second sliding block 46 can drive the slitting mechanism 4 to move transversely in the second sliding block through the groove 10, a gear rack is assembled on the lower side of the second sliding block 46, the gear rack and the transmission gear disk 7 are matched with each other, the transmission gear disk 7 and the second sliding block are linked, and the effect of adjusting the distance between the slitting blade 44 and the paperboard baffle 2 is achieved by controlling the rotating angle of the transmission gear disk 7.

In another embodiment, as shown in fig. 3-4, the right upright 41 is printed with a scale on its surface, the off-table height of the compacting base plate 14 is smaller than that of the slitting blade 44 in the non-working state, and the slitting through groove 11 is opened just below the slitting blade 44.

The undercut distance of slitting blade 44 can conveniently be mastered to the graduation apparatus of 41 surface printings on right side stand, prevents that slitting blade 44 from excessively cutting down and causing the incident, and compacting bottom plate 14 is less than slitting blade 44's the height of separating from the platform during unoperated state, and this design has guaranteed that slitting blade 44 is taken over by compacting bottom plate 14 at the in-process of cutting down and contacts the cardboard earlier and compress tightly, has saved the procedure of adjusting the compression roller, has improved the production efficiency of this device.

In another embodiment, as shown in fig. 1, baffle clamping grooves 9 are formed in the front and rear sides of the operating table 1, baffle clamping tenons 3 are assembled inside the baffle clamping grooves 9, and cardboard baffles 2 are assembled on the upper sides of the two groups of baffle tenons 3.

With inside the baffle draw-in groove 9 that both sides all seted up around the operation panel 1 baffle trip 3 assembled, the cardboard baffle 2 of guaranteeing the assembly of 3 upsides of two sets of baffle trips moves the problem that can not take place the skew about along the direction of baffle draw-in groove 9.

In another embodiment, as shown in fig. 1-3, the lower side of the operation table 1 is equipped with a plurality of sets of supporting legs, the electric telescopic rod is connected with an external power source through a wire, the cardboard baffle 2 and the baffle tenon 3 are of an integrated structure, the upright post 41 and the second sliding block 46 are of an integrated structure, and the first sliding block 45 and the compaction top plate 12 are of an integrated structure.

The design of multiunit integral type structure has reduced the part volume when having improved the structural strength of this device, and then has improved the precision of this device.

The above embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as the limitation of the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (7)

1. The utility model provides a high-accuracy cardboard segmentation device, includes operation panel (1), its characterized in that: operation panel (1) inside has been seted up the second slider and has been led to groove (10) and cut through groove (11), the second slider leads to groove (10) symmetry and has been seted up two sets ofly, the second slider leads to groove (10) inside and is equipped with transmission gear dish (7), transmission gear dish (7) symmetry is equipped with two sets ofly, and is two sets of transmission gear dish (7) are through transmission shaft (72) fixed connection, transmission shaft (72) run through behind transmission gear dish (7) through gear fixed block (8) fixed connection operation panel (1), transmission gear dish (7) surface is equipped with transmission crank (71), operation panel (1) front surface printing has first graduation apparatus (5), first graduation apparatus (5) right side printing has precision graduation apparatus (6), operation panel (1) leads to groove (10) swing joint through two sets of second sliders and cuts out mechanism (4).

2. The high precision paperboard slitting device according to claim 1, characterized in that: the left side of the cutting mechanism (4) is provided with a compaction top plate (12), the lower side of the compaction top plate (12) is provided with an elastic sleeve (13), the lower side of the elastic sleeve (13) is provided with a compaction bottom plate (14), the elastic sleeve (13) is provided with two groups, a spring is arranged inside the elastic sleeve (13), a vertical groove is formed inside the elastic sleeve (13), and a limiting block is arranged inside the vertical groove.

3. A high precision paperboard slitting device according to claim 2, characterized in that: the cutting mechanism (4) comprises a stand column (41), a cross beam (42), a blade motor (43), a cutting blade (44), a first sliding block (45), a second sliding block (46), a stand column through groove (47), a rotating motor (48), a third sliding block (49), a thread sliding block (410), a connecting plate (411) and a roller screw rod (412), wherein the stand column (41) is assembled into two groups, the two groups are respectively assembled on the lower sides of the stand column (41) and the second sliding block (46), the two groups are respectively assembled on the stand column (41) through the cross beam (42) in a fixed connection way, the two groups are respectively assembled inside the stand column (41) and provided with the through groove (47), the two groups are respectively assembled on the outer surface of the stand column (41) and provided with the first sliding block (45), the two groups are respectively assembled on the first sliding block (45) through a compaction top plate (12) in a fixed connection way, the cross beam (42) is assembled with the third sliding block (49), the lower side of the third sliding block (49) is assembled with an electric telescopic rod, the lower side of the electric telescopic rod is welded with the thread sliding block (410), the thread sliding block (410) is assembled inside the thread sliding block (410), the screw rod (47) and the roller rod (48) and the rotating motor (48) is welded on one side of the first sliding block (45), the thread sliding block (410) downside is equipped with connecting plate (411), the welding of connecting plate (411) downside has blade motor (43), blade motor (43) left side is equipped with segmentation blade (44).

4. The high precision paperboard slitting device according to claim 3, characterized in that: the second sliding block (46) is matched with the second sliding block through groove (10), a gear strip is assembled on the lower side of the second sliding block (46), and the gear strip is matched with the transmission gear disc (7).

5. The high precision paperboard slitting device according to claim 3, characterized in that: the surface of the right upright post (41) is printed with a scale, the height of the compaction bottom plate (14) from the table is smaller than that of the cutting blade (44) in a non-working state, and the cutting through groove (11) is arranged under the cutting blade (44).

6. The high precision paperboard slitting device according to claim 3, characterized in that: baffle draw-in groove (9) have all been seted up to both sides around operation panel (1), and this baffle draw-in groove (9) internal assembly has baffle trip (3), and is two sets of baffle trip (3) upside is equipped with cardboard baffle (2).

7. The high precision paperboard slitting device according to claim 6, characterized in that: the utility model discloses a cardboard baffle, operation panel (1) downside is equipped with the multiunit supporting legs, electric telescopic handle passes through the wire and is connected with external power supply, cardboard baffle (2) and baffle trip (3) formula structure as an organic whole, stand (41) and second sliding block (46) formula structure as an organic whole, first sliding block (45) and compaction roof (12) formula structure as an organic whole.

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