CN205600834U - Spiral transverse cutting machine - Google Patents
Spiral transverse cutting machine Download PDFInfo
- Publication number
- CN205600834U CN205600834U CN201620318041.XU CN201620318041U CN205600834U CN 205600834 U CN205600834 U CN 205600834U CN 201620318041 U CN201620318041 U CN 201620318041U CN 205600834 U CN205600834 U CN 205600834U
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- CN
- China
- Prior art keywords
- adjusting sleeve
- transverse cutting
- eccentric adjusting
- gear
- cutting machine
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Abstract
The utility model provides a spiral transverse cutting machine, its upper slitter roller with lower rotor section of thick bamboo light in weight, reduced driving motor power. A spiral transverse cutting machine, includes frame, motor, this crosscut machine is still including locating upper support axle and lower support axle in the frame, can wind the axial lead of upper support axle rotates the ground cover and locates the epaxial upper slitter roller of upper support, can wind the axial lead of lower support axle rotates the ground cover and locates the epaxial rotor section of thick bamboo down of lower support, motor and upper slitter roller reach still to be provided with between the rotor section of thick bamboo down and are used for the drive the upper slitter roller with lower rotor section of thick bamboo pivoted drive mechanism.
Description
Technical field
This utility model relates to a kind of spiral type transverse cutting machine.
Background technology
Referring to the drawings shown in 1, in prior art, upper rotor 3 ' the overall and lower rotor 4 ' entirety of spiral type transverse cutting machine all by
Motor-driven rotation thus complete to cut, the middle part usually hollow of upper rotor 3 ' and lower rotor 4 ' is situated so as to motor and drives
Dynamic, and in order to ensure that upper rotor 3 ' and lower rotor 4 ' have enough rigidity, the wall of upper rotor 3 ' and lower rotor 4 ' must have again
Having enough thickness, the weight so causing rotor 3 ' and lower rotor 4 ' is relatively big, needs big motor to be driven.
Summary of the invention
For the problems referred to above, the purpose of this utility model is to provide a kind of spiral type transverse cutting machine, its upper slitter roller and lower cutter
Roller is lightweight, reduce driving power of motor.
For solving above-mentioned technical problem, this utility model adopts the following technical scheme that
A kind of spiral type transverse cutting machine, including frame, motor, this transverse cutting unit also includes the upper support shaft being located in described frame
With lower support axle, can around the axial line of described upper support shaft be sheathed on rotationally the upper slitter roller in described upper support shaft, can be around
The axial line of described lower support axle is sheathed on the lower rotor cylinder on described lower support axle rotationally, described motor and upper slitter roller and
The drive mechanism for driving described upper slitter roller and described lower rotor cylinder to rotate it is additionally provided with between lower rotor cylinder.
Preferably, described upper support shaft and described upper slitter roller are rotated connection by least one clutch shaft bearing.
Preferably, described lower support axle and described lower rotor cylinder are rotated connection by least one second bearing.
Preferably, described drive mechanism includes the travelling gear by described motor-driven rotation, is fixedly installed on described
Rotor cylinder and and described upper slitter roller same axis gear, be fixedly installed on described lower rotor cylinder and and described lower rotor cylinder with
The lower gear of axle, described gear and described lower gear are meshed, in described travelling gear and described gear, described lower gear
At least one be meshed.
It is highly preferred that this transverse cutting unit also includes the first eccentric adjusting being located between described frame and described lower support axle
Set, described first eccentric adjusting sleeve has the hole of the matching ends with described lower support axle, and the center deviation in described hole is described
The center of the first eccentric adjusting sleeve, described first eccentric adjusting sleeve is sheathed on the end of described lower support axle, in described frame
Offering the first mounting groove, described first eccentric adjusting sleeve is inserted in described first installing hole rotationally.
Further, it is additionally provided with the first locking device between described first eccentric adjusting sleeve and described frame.
It is highly preferred that described travelling gear is located on the gear shaft by described motor-driven rotation, described gear shaft overlaps
Being provided with the 3rd bearing, this transverse cutting unit also includes the second eccentric adjusting sleeve being located between described frame and described 3rd bearing, institute
Stating the second eccentric adjusting sleeve and have the hole matched with described second bearing, described second eccentric adjusting is deviateed at the center in described hole
The center of set, described second eccentric adjusting sleeve is sheathed on described 3rd bearing, and described frame offers the second installing hole, institute
State the second eccentric adjusting sleeve to be inserted in rotationally in described second installing hole.
Further, it is additionally provided with the second locking device between described second eccentric adjusting sleeve and described frame.
Further, described drive mechanism also includes the connection for the output shaft of described motor and described gear shaft being connected
Axial organ.
In conjunction with above-mentioned, this utility model uses above structure, has the advantage that the upper support shaft of employing compared to existing technology
Supporting upper slitter roller, the lower rotor cylinder of lower support axle supporting, use core structure, surface sets helical form knife face, and motor only needs to drive
Upper slitter roller and lower rotor cylinder, alleviate rotor weight, reduce driving power of motor;And rotor rigidity increases, and carries
High cut paper precision.
Accompanying drawing explanation
Accompanying drawing 1 is the rotor schematic diagram of spiral type transverse cutting machine in prior art;
Accompanying drawing 2 is the structural representation of spiral type transverse cutting machine of the present utility model;
Accompanying drawing 3 to 5 is the schematic diagram of several rotor of the present utility model.
Wherein, 3 ', upper rotor;4 ', lower rotor;54 ', gear;55 ', lower gear;
1, frame;11, the first installing hole;12, the second installing hole;2, motor;
30, upper support shaft;31, clutch shaft bearing;32, upper slitter roller;
40, lower support axle;41, the second bearing;42, lower rotor cylinder;
50, shaft coupling;51, gear shaft;52, the 3rd bearing;53, travelling gear;54, gear;55, lower gear;
60, the first eccentric adjusting sleeve;61, bolt;
70, the second eccentric adjusting sleeve;71, bolt.
Detailed description of the invention
Below in conjunction with the accompanying drawings preferred embodiment of the present utility model is described in detail, so that advantage of the present utility model
Can be easier to be understood by the person skilled in the art with feature, thus protection domain of the present utility model be made apparent bright
True defines.
Referring to the drawings shown in 2, a kind of spiral type transverse cutting machine, including frame 1, motor 2, motor 2 is arranged in frame 1.Should
Transverse cutting unit also include the upper support shaft 30 being located in frame 1 and lower support axle 40, can around the axial line of upper support shaft 30 rotationally
The upper slitter roller 32 that is sheathed in support shaft 30, can be sheathed on rotationally on lower support axle 40 around the axial line of lower support axle 40
Lower rotor cylinder 42, upper support shaft 30 and upper slitter roller 32 constitute upper rotor, lower support axle 40 and lower rotor cylinder 42 and constitute lower cutter
Roller.Specifically, the both ends of upper support shaft 30 are inserted in frame 1 respectively, and upper support shaft 30 and upper slitter roller 32 are by least
One clutch shaft bearing 31 rotates connection, i.e. the inner ring of upper support shaft 30 and clutch shaft bearing 31 is fixing to be connected, upper slitter roller 32 He
The outer ring of clutch shaft bearing 31 is fixing to be connected, depending on the number of clutch shaft bearing 31 length according to upper support shaft 30, such as accompanying drawing 3 to 5
Shown in.The two ends of lower support axle 40 are inserted in frame 1 respectively, lower support axle 40 and lower rotor cylinder 42 by least one second
Bearing 41 is fixedly connected, i.e. the inner ring of lower support axle 40 and the second bearing 41 is fixing to be connected, lower rotor cylinder 42 and the second bearing
The outer ring of 41 is fixing to be connected, depending on the number of the second bearing 41 is according to the length of lower support axle 40, as shown in accompanying drawing 3 to 5.
It is additionally provided with between motor 2 and upper slitter roller 32 and lower rotor cylinder 42 for driving upper slitter roller 32 and lower rotor cylinder
42 drive mechanisms rotated.Drive mechanism includes being driven the travelling gear 53 of rotation by motor 2, being fixedly installed on upper rotor respectively
Cylinder 32 two ends and and the gear 54 of upper slitter roller 32 same axis, be fixedly installed on lower rotor cylinder 42 two ends and and lower rotor respectively
Cylinder 42 coaxial lower gears 55, gear 54 is meshed with lower gear 55 respectively, and travelling gear 53 and gear 54 are meshed.
This transverse cutting unit also includes the first eccentric adjusting sleeve 60 being located between frame 1 and lower support axle 40, for regulation
Gear 54 and the spacing of lower gear 55.First eccentric adjusting sleeve 60 has the hole of the matching ends with lower support axle 40, hole
The center of the first eccentric adjusting sleeve 60 is deviateed at center, and the first eccentric adjusting sleeve 60 is sheathed on the end of lower support axle 40.Frame 1
On offer the first installing hole 11, the end of the first eccentric adjusting sleeve 60 and lower support axle 40 is inserted in the first installing hole 11,
And first eccentric adjusting sleeve 60 be rotatably arranged between cell wall and the outer wall of lower support axle 40 of the first installing hole 11, by turning
Dynamic first eccentric adjusting sleeve 60, the height of adjustable lower support axle 40, thus regulation is upper between support shaft 30 and lower support axle 40
Away from, i.e. regulation gear 54 and the spacing of lower gear 55.The first locking dress it is additionally provided with between first eccentric adjusting sleeve 60 and frame 1
Putting, the first locking device includes the bolt 61 being removably attachable on frame 1 and the first eccentric adjusting sleeve 60, when rotating first
Eccentric adjusting sleeve 60 regulates lower gear 55 and postpones to specific bit, tight a bolt 61 by first eccentric adjusting sleeve 60 locking make lower gear
55 are maintained at this position.
Travelling gear 53 is located at and is driven on the gear shaft 51 of rotation by motor 2, and output shaft and the gear shaft 51 of motor 2 pass through
Shaft coupling 50 connects, and gear shaft 51 is arranged with the 3rd bearing 52, this transverse cutting unit also include being located at frame 1 and the 3rd bearing 52 it
Between the second eccentric adjusting sleeve 70, for regulating travelling gear 53 and the spacing of gear 54.Second eccentric adjusting sleeve 70 has
The hole matched with the 3rd bearing 52, the center in hole deviates the center of the second eccentric adjusting sleeve 70, and the second eccentric adjusting sleeve 70 overlaps
It is located on the 3rd bearing 52.Offering the second installing hole 12 in frame 1, the second eccentric adjusting sleeve 70 and the 3rd bearing 52 are inserted in
In second installing hole 12, the second eccentric adjusting sleeve 70 is rotatably arranged in outside cell wall and the 3rd bearing 52 of the second installing hole 12
Between circle, by rotating the second eccentric adjusting sleeve 70, scalable travelling gear 53 and the spacing of gear 54.Second eccentric adjusting
Being additionally provided with the second locking device between set 70 and frame 1, it is inclined that the second locking device includes being removably attachable to frame 1 and second
Bolt 71 on heart regulation set 70, regulates travelling gear 53 postpone to specific bit when rotating the second eccentric adjusting sleeve 70, tighten spiral shell
Second eccentric adjusting sleeve 70 locking is made travelling gear 53 be maintained at this position by bolt 71.Eccentric adjusting eliminates the gear of precision drive
Gap, complete machine is keyless, improves transmission accuracy.Monoblock type portion assembling structure, it is adaptable to different type of machines.
Above-described embodiment, only for technology of the present utility model design and feature are described, is a kind of preferred embodiment, its mesh
Be that person skilled in the art will appreciate that content of the present utility model and implements according to this, this reality can not be limited with this
With novel protection domain.All equivalent transformations made according to spirit of the present utility model or modification, all should contain at this
Within the protection domain of utility model.
Claims (9)
1. a spiral type transverse cutting machine, including frame, motor, it is characterised in that: this transverse cutting unit also includes being located in described frame
Upper support shaft and lower support axle, the upper slitter in described upper support shaft can be sheathed on rotationally around the axial line of described upper support shaft
Roller, the lower rotor cylinder can being sheathed on rotationally on described lower support axle around the axial line of described lower support axle, described motor and
The driver for driving described upper slitter roller and described lower rotor cylinder to rotate it is additionally provided with between upper slitter roller and lower rotor cylinder
Structure.
Spiral type transverse cutting machine the most according to claim 1, it is characterised in that: described upper support shaft and described upper slitter roller lead to
Cross at least one clutch shaft bearing to rotate connection.
Spiral type transverse cutting machine the most according to claim 1, it is characterised in that: described lower support axle and described lower rotor cylinder lead to
Cross at least one second bearing to rotate connection.
Spiral type transverse cutting machine the most according to claim 1, it is characterised in that: described drive mechanism includes being driven by described motor
Dynamic rotate travelling gear, be fixedly installed on described upper slitter roller and and the gear of described upper slitter roller same axis, fixing set
Being placed in described lower rotor cylinder and the lower gear coaxial with described lower rotor cylinder, described gear and described lower gear are meshed, institute
At least one stated in travelling gear and described gear, described lower gear is meshed.
Spiral type transverse cutting machine the most according to claim 4, it is characterised in that: this transverse cutting unit also include being located at described frame and
The first eccentric adjusting sleeve between described lower support axle, described first eccentric adjusting sleeve has and the end phase of described lower support axle
The hole coordinated, the center of described first eccentric adjusting sleeve of center deviation in described hole, described first eccentric adjusting sleeve is sheathed on institute
Stating on the end of lower support axle, described frame offers the first installing hole, described first eccentric adjusting sleeve plugs rotationally
In described first installing hole.
Spiral type transverse cutting machine the most according to claim 5, it is characterised in that: described first eccentric adjusting sleeve and described frame
Between be additionally provided with the first locking device.
Spiral type transverse cutting machine the most according to claim 4, it is characterised in that: described travelling gear is located at and is driven by described motor
On the dynamic gear shaft rotated, described gear shaft being arranged with the 3rd bearing, this transverse cutting unit also includes being located at described frame and described
The second eccentric adjusting sleeve between 3rd bearing, described lower support axle and described lower rotor cylinder pass through at least one second bearing phase
Being rotationally connected, described second eccentric adjusting sleeve has the hole matched with described second bearing, and the center deviation in described hole is described
The center of the second eccentric adjusting sleeve, described second eccentric adjusting sleeve is sheathed on described 3rd bearing, described frame offers
Second installing hole, described second eccentric adjusting sleeve is inserted in described second installing hole rotationally.
Spiral type transverse cutting machine the most according to claim 7, it is characterised in that: described second eccentric adjusting sleeve and described frame
Between be additionally provided with the second locking device.
Spiral type transverse cutting machine the most according to claim 7, it is characterised in that: described drive mechanism also includes for by described
The shaft coupling that the output shaft of motor and described gear shaft connect.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620318041.XU CN205600834U (en) | 2016-04-15 | 2016-04-15 | Spiral transverse cutting machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620318041.XU CN205600834U (en) | 2016-04-15 | 2016-04-15 | Spiral transverse cutting machine |
Publications (1)
Publication Number | Publication Date |
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CN205600834U true CN205600834U (en) | 2016-09-28 |
Family
ID=56972431
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620318041.XU Active CN205600834U (en) | 2016-04-15 | 2016-04-15 | Spiral transverse cutting machine |
Country Status (1)
Country | Link |
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CN (1) | CN205600834U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105729545A (en) * | 2016-04-15 | 2016-07-06 | 雅高机械(太仓)有限公司 | Spiral transverse cutting machine |
-
2016
- 2016-04-15 CN CN201620318041.XU patent/CN205600834U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105729545A (en) * | 2016-04-15 | 2016-07-06 | 雅高机械(太仓)有限公司 | Spiral transverse cutting machine |
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