CN208898215U - Deflection correction sensor regulating mechanism and cutting apparatus - Google Patents
Deflection correction sensor regulating mechanism and cutting apparatus Download PDFInfo
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- CN208898215U CN208898215U CN201821623449.3U CN201821623449U CN208898215U CN 208898215 U CN208898215 U CN 208898215U CN 201821623449 U CN201821623449 U CN 201821623449U CN 208898215 U CN208898215 U CN 208898215U
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- sliding part
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- regulating mechanism
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Abstract
The utility model relates to lithium battery cutting field of mechanical technique more particularly to a kind of deflection correction sensor regulating mechanisms and cutting apparatus.Deflection correction sensor regulating mechanism includes: sensor module, and including guide rail, the first sliding part and the second sliding part that are arranged on the guide rail, first sliding part and second sliding part are connected separately with deflection correction sensor;First driving device is connect with the sensor module, for driving first sliding part and second sliding part to move on the guide rail to direction close to each other or separate.Cutting apparatus includes deflection correction sensor regulating mechanism.The utility model provides a kind of deflection correction sensor regulating mechanism and cutting apparatus, to improve the deflection correction sensor of cutting apparatus for the applicability of the material of different in width.
Description
Technical field
The utility model relates to lithium batteries to cut field of mechanical technique, more particularly, to a kind of deflection correction sensor regulating mechanism
And cutting apparatus.
Background technique
The cutting apparatus of current lithium battery banding machine, including unreeling shaft and cutter device.After material is unreeled by unreeling shaft
Slitting treatment is carried out into cutter device, however, since material is irregular or inclined during walking material in position on unreeling shaft
It moves, easily causes material the deviation of cutting position occur in transport to cutter device, to influence cutting accuracy.
In view of the above-mentioned problems, by cutting apparatus be arranged deflection correction sensor come to transport to cutter device material into
Row position detection, in order to carry out corresponding correction processing to material, the cutting position that guarantee material enters cutter device is accurate.
However, in the prior art, the position of deflection correction sensor is fixed, therefore high for the width requirement of material, when the width of material
When changing, the position of deflection correction sensor, which is adjusted, extremely to be bothered, and is enabled the inconvenient to use of cutting apparatus, is limited cutting apparatus
The scope of application, and affect production efficiency.
Therefore, the application provides a kind of new deflection correction sensor regulating mechanism and cutting apparatus regarding to the issue above.
Utility model content
The purpose of this utility model is to provide a kind of deflection correction sensor regulating mechanisms, are passed with improving the correction of cutting apparatus
Applicability of the sensor for the material of different in width.
The purpose of this utility model, which also resides in, provides a kind of cutting apparatus, with the further correction for solving to improve cutting apparatus
Applicability of the sensor for the material of different in width.
Based on above-mentioned first purpose, the utility model provides a kind of deflection correction sensor regulating mechanism, comprising:
Sensor module, including guide rail, the first sliding part and the second sliding part that are arranged on the guide rail, described first
Sliding part and second sliding part are connected separately with deflection correction sensor;
First driving device is connect with the sensor module, for driving first sliding part and described second to slide
Dynamic portion moves on the guide rail to direction close to each other or separate.
Further, the guide rail is left-right rotary screw rod, and first sliding part and second sliding part are respectively set
On the left-hand screw section screw rod and right-hand screw section screw rod of the left-right rotary screw rod.
Further, deflection correction sensor regulating mechanism further includes guide rod, and the guide rod is parallel to the length of the guide rail
Spend direction setting;
First sliding part and second sliding part are connect with the guide rod, and can be sliding along the guide rod
It is dynamic.
Further, deflection correction sensor regulating mechanism further includes two sensors mounting base;
Two deflection correction sensors pass through the sensor installation seat respectively and are connected to first sliding part and described
On second sliding part.
Further, deflection correction sensor regulating mechanism further includes two sensors adjustment seat;
First sliding part, which connects the sensor by the sensor adjustment seat with second sliding part, pacifies
Fill seat;
One of them described sensor adjustment seat can be mobile relative to first sliding part, another described sensor tune
Saving seat can be mobile relative to second sliding part.
Further, the first waist hole is offered in the sensor adjustment seat;
Corresponding position offers the second waist hole, first waist hole on first sliding part and second sliding part
It is bolted with second waist hole.
Further, the first driving device is motor or handwheel.
Based on above-mentioned second purpose, the utility model provides a kind of cutting apparatus, adjusts including the deflection correction sensor
Mechanism, further includes:
Cutter device, the cutter device is set to the sensor module and surveys between wide component, for by institute
The material for stating sensor group is cut;
Wide component is surveyed, for measuring the width of the material after cutter device cutting;
Second driving device is connect with the deflection correction sensor regulating mechanism, is adjusted for adjusting the deflection correction sensor
Mechanism integral position;
Control centre is electrically connected with the wide component of the survey and second driving device respectively.
Further, cutting apparatus further includes unreeling shaft and transition roller group;
The material of the unreeling shaft can be delivered to the sensor module by the transition roller group.
Further, the wide component of survey includes two groups of width gages.
By adopting the above technical scheme, the utility model has the following beneficial effects:
Deflection correction sensor regulating mechanism includes: sensor module, including guide rail, the first sliding part being arranged on guide rail and
Second sliding part, the first sliding part and the second sliding part are connected separately with deflection correction sensor;First driving device, with sensor group
Part connection, for driving the first sliding part and the second sliding part to move on guide rail to direction close to each other or separate, therefore
Deflection correction sensor on first sliding part and the second sliding part can be moved along guide rail to direction that is close to each other or being located remotely from each other,
It realizes and adjusts the distance between two deflection correction sensors, to enable the distance between two deflection correction sensors that can be suitable for different width
The material of degree improves its versatility.In conclusion deflection correction sensor regulating mechanism provided by the utility model enables deflection correction sensor
Position adjust extremely convenient, expand the scope of application of cutting apparatus, and improve production efficiency.
Cutting apparatus provided by the utility model includes the deflection correction sensor regulating mechanism, further includes: cutter device is cut
It cuts device to be set to sensor module and survey between wide component, for cutting to by the material of sensor module;It surveys wide
Component, for measuring the width of the material after cutter device is cut;Second driving device, with deflection correction sensor regulating mechanism
Connection, for adjusting deflection correction sensor regulating mechanism integral position;Control centre, respectively with survey wide component and the second driving device
Electrical connection.Material is after sensor module, device to be cut slitting treatment, surveys wide assemblies monitor after cutter device is cut
Material width, and width information is sent to control centre, control centre analyzes the width of material, to judge object
Whether material shifts, and such as there is no offsets, then is not necessarily to carry out the adjustment of deflection correction sensor regulating mechanism, such as shift,
Control centre's the second driving device of corresponding control adjusts the integral position of deflection correction sensor regulating mechanism, to enable by sensor
The position of the material of component is adjusted, even the position for being also transmitted to the material of cutter device is adjusted, realizes adjustment
Deviation on material position, reaches rectifying effect.To sum up, control centre enables the wide component of survey and the second driving device form closed loop anti-
The control structure of feedback can make timely, quick adjustment to the position deviation of material automatically, enable adjustment enhanced convenience, and
Degree of regulation is higher;Due to reducing manual operation, thus improve production efficiency;Due to cutting apparatus provided in this embodiment
It is simple and reliable for structure, can be widely applied to the materials such as paper tape, film, lithium battery pole slice correction control.
Detailed description of the invention
It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment
Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by
Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also
To obtain other relevant attached drawings according to these attached drawings.
Fig. 1 is that the structural schematic diagram of deflection correction sensor regulating mechanism provided by the embodiment of the utility model (shows second
The state of driving device);
Fig. 2 is the structural schematic diagram of cutting apparatus provided by the embodiment of the utility model.
Icon: 1- sensor module;11- left-right rotary screw rod;111- left-hand screw section screw rod;112- right-hand screw section screw rod;
The first sliding part of 121-;The second sliding part of 122-;13- first driving device;2- width gage;The second driving device of 3-;4- correction
Sensor;5- guide rod;6- sensor installation seat;7- sensor adjustment seat;8- cutter device;91- unreeling shaft;92- transition roller
Group.
Specific embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described
Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally
Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical
Novel protected range.
It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular
Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only
For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific
Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the
One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally
Connection;It can be mechanical connection, be also possible to be electrically connected;Can be directly connected, can also indirectly connected through an intermediary,
It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
The concrete meaning of language in the present invention.
Embodiment one
Shown in Figure 1, the present embodiment provides a kind of deflection correction sensor regulating mechanisms, comprising:
Sensor module 1, including guide rail, the first sliding part 121 and the second sliding part 122 that are arranged on guide rail, first
Sliding part 121 and the second sliding part 122 are connected separately with deflection correction sensor 4;First driving device 13 connects with sensor module 1
It connects, for driving the first sliding part 121 and the second sliding part 122 to move on guide rail to direction close to each other or separate.
It should be noted that material is from entangling in the deflection correction sensor 4 and the second sliding part 122 on the first sliding part 121
Pass through between inclined sensor 4, in order to which two deflection correction sensors 4 monitor the position of material.
Deflection correction sensor 4 is used to carry out position detection to the material of transport to cutter device 8, when transport to cutter device 8
Material width change when, the position of deflection correction sensor 4 is also required to the corresponding width for being adapted to material.The prior art
In, the position of deflection correction sensor is fixed, and may be only available for the material of specific width, limits the scope of application of cutting apparatus.
In view of the above-mentioned problems, deflection correction sensor regulating mechanism provided in this embodiment, is connected to by deflection correction sensor 4
On one sliding part 121 and the second sliding part 122, and first driving device 13 can drive the first sliding part 121 and the second sliding
Portion 122 moves on guide rail to direction that is close to each other or being located remotely from each other, thus two deflection correction sensors 4 can it is close to each other or
Person is separate, realizes and adjusts the distance between two deflection correction sensors 4, to enable the distance between two deflection correction sensors 4 that can fit
For the material of different in width, its versatility is improved.To sum up, deflection correction sensor regulating mechanism provided by the utility model enables correction
It is extremely convenient that the position of sensor is adjusted, and expands the scope of application of cutting apparatus, and improve production efficiency.
Optionally, the deflection correction sensor 4 of the present embodiment is infrared sensor.
Preferably, shown in Figure 1, guide rail is left-right rotary screw rod 11, and the first sliding part 121 and the second sliding part 122 divide
It is not arranged on the left-hand screw section screw rod 111 and right-hand screw section screw rod 112 of left-right rotary screw rod 11.
Optionally, first driving device 13 is connect with left-right rotary screw rod 11.
When first driving device 13 drives left-right rotary screw rod 11 to rotate, 122 energy of the first sliding part 121 and the second sliding part
It is enough to be moved along left-right rotary screw rod 11 to direction that is close to each other or being located remotely from each other.
It should be noted that left-right rotary screw rod 11 is the prior art.Left-right rotary screw rod 11 is divided to or so two along its length
Rotation direction, is respectively as follows: left-hand screw section screw rod 111 and right-hand screw section screw rod 112, and the first sliding part 121 is rotatably connected in left-hand screw section screw rod
111, the second sliding part 122 is rotatably connected in right-hand screw section screw rod 112, and it is sliding to can be realized first by the operating of left-right rotary screw rod single shaft
Dynamic portion 121 and the second sliding part 122 are mobile to direction close to each other or separate.
Left-right rotary screw rod has both simple structure, high-precision, invertibity and efficient feature simultaneously, is widely used in each
Kind industrial equipment and precision instrument.Therefore enable the structure of deflection correction sensor regulating mechanism simpler, the first sliding part 121 and second
The movement of sliding part 122 is more convenient, to enable the adjustment of distance between two deflection correction sensors 4 more flexible.
Preferably, shown in Figure 1, deflection correction sensor regulating mechanism further includes guide rod 5, and guide rod 5 is parallel to guide rail
Length direction setting;First sliding part 121 and the second sliding part 122 are connect with guide rod 5, and can be sliding along guide rod 5
It is dynamic.
That is, when the first sliding part 121 and the second sliding part 122 are moved along guide rail, it can be sliding along guide rod 5
Dynamic, guide rod 5 is that the movement of the first sliding part 121 and the second sliding part 122 provides guiding role, enables 121 He of the first sliding part
The movement of second sliding part 122 is more stable, steady, improves distance between the first sliding part 121 and the second sliding part 122 and adjusts
Accuracy.
Optionally, shown in Figure 1, through-hole, which is offered, on the first sliding part 121 and the second sliding part 122 (does not mark in figure
Note), guide rod 5 is inserted in through-hole, and 5 clearance fit of through-hole and guide rod, realizes the first sliding part 121 and the second sliding part
122 with the connection of guide rod 5, and can be slided along guide rod 5.
Preferably, shown in Figure 1, there are two guide rods 5, and two guide rods 5 are symmetrically set to the two sides of guide rail,
Further improve the stability of the movement of the first sliding part 121 and the second sliding part 122.
Preferably, shown in Figure 1, deflection correction sensor regulating mechanism further includes two sensor installation seats 6, two corrections
Sensor 4 is connected on the first sliding part 121 and the second sliding part 122 by sensor installation seat 6 respectively.
Optionally, shown in Figure 1, sensor installation seat 6 is in " Contraband " type, and the setting of deflection correction sensor 4 is installed in sensor
The inside of seat 6.
Shown in Figure 1, deflection correction sensor regulating mechanism further includes two sensor adjustment seats 7;First sliding part, 121 He
Second sliding part 122 connects sensor installation seat 6 by sensor adjustment seat 7.
Preferably, one of sensor adjustment seat 7 can be moved relative to the first sliding part 121 along first direction, another
A sensor adjustment seat 7 can move in a second direction relative to the second sliding part 122;First direction and the second direction phase
Together, and it is vertical two-by-two along moving direction, the conveying direction of material of guide rail with the first sliding part 121.
Sensor adjustment seat 7 can be mobile relative to the first sliding part 121 and the second sliding part 122 respectively, enables the present embodiment
The deflection correction sensor regulating mechanism of offer can be finely adjusted 4 position of deflection correction sensor according to actual demand, to adapt to material
Different location.
It is shown in Figure 1 as a kind of achievable mode, the first waist hole is offered in sensor adjustment seat 7;First is sliding
It is solid by bolt to offer the second waist hole, the first waist hole and the second waist hole for corresponding position in dynamic portion 121 and the second sliding part 122
It is fixed.
Preferably, the length direction of the first waist hole and the second waist hole is arranged along first direction.
It should be noted that turn bolt, enabling can be mutually shifted between sensor adjustment seat 7 and the first sliding part 121,
To which sensor adjustment seat 7 can be moved by the first waist hole and the second waist hole along the first sliding part 121;Similarly, turn bolt,
Enabling can be mutually shifted between sensor adjustment seat 7 and the second sliding part 122, so that sensor adjustment seat 7 passes through the first waist hole
It can be moved along the second sliding part 122 with the second waist hole, enable the structure of deflection correction sensor regulating mechanism simpler, with more practical
Property, reduce cost.
Optionally, first driving device 13 is motor or handwheel;Preferably, motor or handwheel and left-right rotary screw rod 11
Connection.
It drives left-right rotary screw rod 11 to rotate by motor or handwheel, realizes the first sliding part 121 and the second sliding part
122 is mobile to direction that is close to each other or being located remotely from each other, it is thus achieved that the distance between two deflection correction sensors 4 are adjusted,
To adapt to the material of different in width, its versatility is improved.
Embodiment two
Embodiment two provides a kind of cutting apparatus, and cutting apparatus includes the deflection correction sensor regulating mechanism of embodiment one,
The technical characteristic of deflection correction sensor regulating mechanism disclosed in embodiment one is also applied for the embodiment, and embodiment one is published
The technical characteristic of deflection correction sensor regulating mechanism is not repeated to describe.The embodiment of cutting apparatus is carried out with reference to the accompanying drawing
It is further to be described in detail.
It is shown in Figure 2, cutting apparatus provided in this embodiment, including deflection correction sensor regulating mechanism, further includes: cutting
Device 8, cutter device 8 are set to sensor module 1 and survey between wide component, for the material by sensor module 1 into
Row cutting;Wide component is surveyed, for measuring the width of the material after the cutting of cutter device 8;Second driving device 3, with correction
Sensor adjusting mechanism connection, for adjusting deflection correction sensor regulating mechanism integral position;Control centre, respectively with survey wide component
It is electrically connected with the second driving device 3.
Since cutter device 8 is set to sensor module 1 and surveys between wide component, material is after sensor module 1, quilt
After 8 slitting treatment of cutter device, surveys wide component and material is carried out to survey wide processing.
Material is after sensor module 1,8 slitting treatment of device to be cut, surveys wide assemblies monitor and divides by cutter device 8
The width of material after cutting, and width information is sent to control centre, control centre analyzes the width of material, to sentence
Whether disconnected material shifts, and such as there is no offsets, then is not necessarily to carry out the adjustment of deflection correction sensor regulating mechanism, such as occur inclined
It moves, control centre's the second driving device 3 of corresponding control adjusts the integral position of deflection correction sensor regulating mechanism, to enable by passing
The position of the material of sensor component 1 is adjusted, and is enabled the position for the material for being transmitted to cutter device 8 be adjusted, is realized tune
Deviation on whole material position, reaches rectifying effect.To sum up, control centre enables the wide component of survey and the formation of the second driving device 3 close
The control structure of ring feedback can make timely, quick adjustment to the position deviation of material automatically, enable adjustment more square
Just, and degree of regulation is higher;Due to reducing manual operation, thus improve production efficiency;Due to provided in this embodiment point
The simple and reliable for structure of equipment is cut, can be widely applied to the correction control of the materials such as paper tape, film, lithium battery pole slice.
Preferably, the second driving device 3 enables the adjustment amount of the integral position of deflection correction sensor regulating mechanism and the width of material
Degree difference is corresponding, to enable correction more acurrate.
To sum up, control centre enables the control structure for surveying wide component and the second driving device 3 formation closed loop feedback, can be automatic
Timely, quick adjustment is made to the position deviation of material, enables adjustment enhanced convenience, and degree of regulation is higher;Due to reducing
Manual operation, thus improve production efficiency;It is simple and reliable for structure due to cutting apparatus provided in this embodiment, it can be extensive
Correction applied to materials such as paper tape, film, lithium battery pole slices controls.
Optionally, the second driving device 3 includes driving motor, lead screw and nut (not shown);Driving motor and silk
Thick stick connection, nut are rotatably connected in lead screw;When driving motor drives lead screw rotation, nut can be moved along lead screw;Deflection correction sensor tune
Section mechanism is connected to nut.
Specifically, nut is moved along lead screw, wherein deflection correction sensor adjusts machine when driving motor driving lead screw rotation
Structure is moved with nut along lead screw, realizes the adjusting of deflection correction sensor regulating mechanism integral position.
Alternatively, the second driving device 3 is the other structures such as electric cylinders.
Preferably, shown in Figure 2, cutting apparatus further includes unreeling shaft 91 and transition roller group 92;Unreeling shaft 91 passed through
Roller group 92 is crossed to connect with the sensor module 1 of deflection correction sensor regulating mechanism.
After the material on unreeling shaft 91 is unreeled by unreeling shaft 91, deflection correction sensor tune is delivered to after transition roller group 92
Save the sensor module 1 of mechanism.
Preferably, transition roller group 92 includes multiple transition rollers, and multiple transition rollers are in unreeling shaft 91 and deflection correction sensor tune
Successively interval setting between mechanism is saved, is used for transmission material, and ensure the tension of material transferring.
Preferably, shown in Figure 2, surveying wide component includes two groups of width gages 2, and two groups of width gages 2 are respectively used to measurement quilt
The width of material after cutting, and two width gages 2 are electrically connected with control centre.
It should be noted that width gage is the prior art, for example, see Publication No. CN206440248U, the applying date is
On February 13rd, 2017, patent name was the patent publication us of width gage.
To sum up, the workflow of cutting apparatus provided in this embodiment is as follows:
According to the width of material, enable the first sliding part 121 and the second sliding part 122 in guide rail by first driving device 13
Upper movement, to adjust the distance between two deflection correction sensors 4;Deflection correction sensor regulating mechanism is placed on 92 He of transition roller group
Between cutter device 8, and enable deflection correction sensor regulating mechanism corresponding with the preset cutting position of cutter device 8;When operation, lead to
It crosses unreeling shaft 91 to unreel and after cutter device 8 cuts material, by surveying the measurement of wide component after cutter device 8 is cut
Material width, and width information is transferred to control centre, width information is carried out processing analysis to judge by control centre
Whether material shifts, and such as nothing, then without carrying out the adjustment of deflection correction sensor regulating mechanism, such as shifts, then by the
Two driving devices 3 carry out the adjustment of integral position to deflection correction sensor regulating mechanism, so that by two deflection correction sensors 4
Material be restored to accurate location.
The cutting apparatus of the present embodiment has the advantages that one deflection correction sensor regulating mechanism of embodiment, which is implementing
It is described in detail in example one, is not repeated herein.
Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited
System;Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should
Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of
Technical characteristic is equivalently replaced;And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new
The range of each embodiment technical solution of type.
Claims (10)
1. a kind of deflection correction sensor regulating mechanism characterized by comprising
Sensor module, including guide rail, the first sliding part and the second sliding part that are arranged on the guide rail, first sliding
Portion and second sliding part are connected separately with deflection correction sensor;
First driving device is connect with the sensor module, for driving first sliding part and second sliding part
It is moved on the guide rail to direction close to each other or separate.
2. deflection correction sensor regulating mechanism according to claim 1, which is characterized in that the guide rail is left-right rotary screw rod,
First sliding part and second sliding part are separately positioned on the left-hand screw section screw rod and right-hand screw of the left-right rotary screw rod
On section screw rod.
3. deflection correction sensor regulating mechanism according to claim 1, which is characterized in that it further include guide rod, the guiding
Bar is parallel to the length direction setting of the guide rail;
First sliding part and second sliding part are connect with the guide rod, and can be slided along the guide rod.
4. deflection correction sensor regulating mechanism according to claim 1-3, which is characterized in that further include two groups of sensings
Device mounting base;
Two deflection correction sensors pass through the sensor installation seat respectively and are connected to first sliding part and described second
On sliding part.
5. deflection correction sensor regulating mechanism according to claim 4, which is characterized in that further include that two sensors are adjusted
Seat;
First sliding part connects the sensor installation seat by the sensor adjustment seat with second sliding part;
One of them described sensor adjustment seat can be mobile relative to first sliding part, another described sensor adjustment seat
It can be mobile relative to second sliding part.
6. deflection correction sensor regulating mechanism according to claim 5, which is characterized in that opened up in the sensor adjustment seat
There is the first waist hole;
Corresponding position offers the second waist hole, first waist hole and institute on first sliding part and second sliding part
The second waist hole is stated to be bolted.
7. deflection correction sensor regulating mechanism according to claim 1, which is characterized in that the first driving device is motor
Or handwheel.
8. a kind of cutting apparatus, which is characterized in that adjust machine including the described in any item deflection correction sensors of such as claim 1-7
Structure, further includes:
Cutter device, the cutter device is set to the sensor module and surveys between wide component, for by the biography
The material of sensor component is cut;
Wide component is surveyed, for measuring the width of the material after cutter device cutting;
Second driving device is connect with the deflection correction sensor regulating mechanism, for adjusting the deflection correction sensor regulating mechanism
Integral position;
Control centre is electrically connected with the wide component of the survey and second driving device respectively.
9. cutting apparatus according to claim 8, which is characterized in that further include unreeling shaft and transition roller group;
The material of the unreeling shaft can be delivered to the sensor module by the transition roller group.
10. cutting apparatus according to claim 8, which is characterized in that the wide component of survey includes two groups of width gages.
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CN201821623449.3U CN208898215U (en) | 2018-09-30 | 2018-09-30 | Deflection correction sensor regulating mechanism and cutting apparatus |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110817556A (en) * | 2019-12-07 | 2020-02-21 | 湖南中泉环保能源科技有限公司 | Material guiding device for full-automatic slitting machine |
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2018
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110817556A (en) * | 2019-12-07 | 2020-02-21 | 湖南中泉环保能源科技有限公司 | Material guiding device for full-automatic slitting machine |
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