CN214984331U - Bookbinding machine - Google Patents

Abstract

The utility model relates to an office equipment technical field especially relates to a book-binding machine. The binding machine comprises a rack, a workbench, a measuring device, a storage device, a control device, a binding device and an interaction device, wherein the workbench, the measuring device, the storage device, the control device, the binding device and the interaction device are all connected to the rack; the binding machine comprises a workbench, a binding device, an interaction device, a measuring device and a storage device, wherein the workbench is used for bearing an object to be bound, the binding device is used for binding the object to be bound, the interaction device is used for man-machine interaction between a user and the binding machine, the measuring device is used for measuring the length of a rubber tube required by binding the object to be bound as a first length, and the storage device is used for storing the remaining length of the rubber tube in the binding machine as a second length; the first length and the second length are both stored in the control device, the control device can compare the first length with the second length, and the binding device and the interaction device are both connected with the control device. The utility model provides a binding machine to alleviate the binding machine that exists among the prior art and easily cause the extravagant technical problem of waiting to bind thing or rubber tube because of the rubber tube surplus is not enough.

Description

Bookbinding machine

Technical Field

The utility model belongs to the technical field of office equipment technique and specifically relates to a book-binding machine is related to.

Background

A binding machine is a binding apparatus that mechanically (manually, automatically, or fully automatically) fixes materials such as paper, bills, plastics, or leather with binding nails, hot melt adhesives, or rubber tubes. The binder can be divided into an industrial binder and a civil binder according to different purposes, and is commonly used for financial office or file management in printing factories, enterprises and public institutions and the like.

In the following description, the rubber tube material is taken as an example, and the binding machine generally includes a frame, and a worktable, a pressing arm and a binding device which are all connected to the frame, wherein the binding device includes a cutting mechanism, a punching mechanism and a riveting mechanism. The press arm is arranged above the workbench and can lift relative to the rack, the cutting mechanism can cut the rubber tube into small sections matched with the thickness of the object to be bound for binding, the punching mechanism can drill the object to be bound, and the press riveting mechanism can penetrate the cut rubber tube into the drilled holes.

During operation, the object to be bound is placed on the workbench, the pressing arm descends to tightly press the object to be bound on the workbench, the punching mechanism drills the object to be bound, the material cutting mechanism cuts the rubber tube into small sections, the pressing riveting mechanism penetrates the cut rubber tube into the drill holes, and the binding of the object to be bound is completed.

Therefore, with the use of the binding machine, the allowance of the rubber tube in the binding machine is gradually reduced, that is, the total length of the rubber tube is gradually reduced, and when the allowance length of the rubber tube is not enough to meet the requirement for binding the thickness of the object to be bound, that is, after the object to be bound is drilled, the remaining rubber tube cannot complete the binding task, so that normal binding is affected, and even the waste of the object to be bound or the rubber tube is caused.

The present application thus provides a new stapler that addresses the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a book-binding machine to further alleviate the book-binding machine that exists among the prior art and easily cause the extravagant technical problem of waiting to bind thing or rubber tube because of the rubber tube surplus is not enough.

Based on the above purpose, the utility model provides a binding machine, the binding machine includes the frame and all connects workstation, measuring device, storage device, controlling means, binding means and the interaction device in the frame;

the binding machine comprises a worktable, a binding device, an interaction device, a measuring device and a storage device, wherein the worktable is used for bearing objects to be bound, the binding device is used for binding the objects to be bound, the interaction device is used for man-machine interaction between a user and the binding machine, the measuring device is used for measuring the length of a rubber tube required for binding the objects to be bound as a first length, and the storage device is used for storing the remaining length of the rubber tube in the binding machine as a second length;

the measuring device, the storage device, the binding device and the interaction device are all connected with the control device, and the control device can compare the first length with the second length and correspondingly control the binding device and the interaction device.

Furthermore, the measuring device comprises a pressure arm connected to the rack, a measuring grating connected with the pressure arm and a measuring optocoupler correspondingly connected with the measuring grating in an induction manner, the measuring optocoupler is fixedly arranged on the rack, and the pressure arm is arranged above the workbench and can be close to or far away from the workbench;

the pressure arm is close to the workbench, so that the measuring grating can synchronously move relative to the measuring optocoupler.

Further, the measuring device also comprises a sliding rod and a slideway;

the slide bar is arranged on the measuring grating, the slide way is arranged on the workbench, and the slide bar is arranged in the slide way and can slide along the slide way;

when the pressure arm is close to or far away from the workbench, the measurement grating drives the sliding rod to slide along the slide way.

Furthermore, the width of the grating peak of the measurement grating is a first distance D, the width of the gap between adjacent grating peaks is a second distance E, and when the pressure arm is close to the workbench so that the pressure arm is in contact with the workbench, the number of the grating peaks of the measurement grating moving relative to the measurement optocoupler is a first number C;

when the pressure arm is close to the workbench so that the number of grating peaks of the measuring grating moving relative to the measuring optocoupler is a second number h, the thickness of the object to be bound is a first thickness f, wherein f is (C-h) × (D + E), and the second number h is smaller than the first number C.

Further, the first length is i, and i ═ f + L;

wherein L is the loss amount of the pressure riveting at the two ends of the rubber pipe after the pressure riveting treatment.

Further, the storage device of the binding machine is a memory capable of being maintained in a power-off state, and the memory is used for storing and updating the value of the first length in real time.

Further, the memory is used for storing and updating the value of the second length in real time.

Further, the memory is also used for storing and updating the first thickness and the accumulated value of the first thickness in real time.

Further, the interaction device of the binding machine is a touch display screen, and the first length, the second length, the first thickness and the accumulated value of the first thickness are all displayed on the display screen.

Further, the binding device comprises a material cutting mechanism, a punching mechanism and a press riveting mechanism;

blank mechanism can cut into the rubber tube and wait to bind the thickness assorted segment of thing, the mechanism of punching can be waited to bind the thing and bore, press and rivet the mechanism and can penetrate more than the drilling with the rubber tube that cuts well in.

Adopt above-mentioned technical scheme, the utility model discloses a book-binding machine has following beneficial effect:

when the binding machine is used, the first length is measured through the measuring device, the second length stored in the storage device is extracted, and the first length and the second length are compared through the control device.

Specifically, if the first length is greater than the second length, that is, the remaining amount of the rubber tube in the binding machine is not enough to satisfy the thickness of the bound object, and the binding task cannot be completed, the control device correspondingly controls the interaction device to give a prompt to the user, and controls the binding device not to be started, for example, the interaction device prompts the user that the rubber tube has insufficient remaining amount through an alarm, a voice notification or a text notification, and the user needs to replace the rubber tube with the sufficient length or replace the object to be bound with the small thickness. If the first length is smaller than the second length, namely the remaining amount of the rubber tube in the binding machine is enough to meet the thickness of the bound object, the binding task can be normally finished, the control device correspondingly controls the binding device to start so as to bind the object to be bound, such as drilling and riveting.

That is to say, with the binding machine, before the binding treatment of the object to be bound, whether the allowance of the rubber tube can be used for normally binding the current object to be bound is judged, the binding treatment is carried out only when the allowance of the rubber tube is enough, and when the allowance of the rubber tube is not enough, the binding device is not started, the binding treatment is not carried out, namely, the drilling and riveting treatment can not be carried out on the object to be bound, so that the waste of the object to be bound can not be caused; in addition, when the residual quantity of the rubber tube in the binding machine is not enough to meet the requirement of binding the thickness of the objects to be bound, the interactive device prompts a user, and if the user replaces the objects to be bound with smaller thickness, the rubber tube with smaller residual length in the binding machine can be utilized instead of being discharged in a rough manner, so that the rubber tube waste is prevented.

In summary, the binding method solves the technical problem that the binder in the prior art is easy to cause waste of objects to be bound or rubber tubes due to insufficient rubber tube allowance.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to these drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a binding machine according to an embodiment of the present invention (a casing is not shown);

fig. 2 is a schematic view of a partial structure of a binding machine according to an embodiment of the present invention;

fig. 3 is a second partial schematic structural view of a binding machine according to an embodiment of the present invention;

fig. 4 is a third schematic view of a partial structure of a binding machine according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a measuring device of a binding machine according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of three states of a measuring apparatus according to an embodiment of the present invention;

fig. 6a is a schematic structural diagram of the measurement apparatus in a standby state;

FIG. 6b is a schematic structural diagram of the measuring device in an operating state;

FIG. 6c is a schematic view of the pressure arm of the measuring device in contact with the worktable;

fig. 7 is a schematic structural diagram of a binding machine according to an embodiment of the present invention.

Reference numerals:

1-a frame;

2-a workbench;

3-a measuring device; 31-a press arm; 32-a measurement grating; 33-measuring the optical coupler; 34-measuring the rope; 35-a slide bar;

4-a binding device; 5-an interaction device; 6-machine shell.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

The embodiment provides a binding machine, which comprises a rack 1, a workbench 2, a measuring device 3, a storage device, a control device, a binding device 4 and an interaction device 5, wherein the workbench 2, the measuring device 3, the storage device, the control device, the binding device 4 and the interaction device are all connected to the rack 1; the worktable 2 is used for bearing objects to be bound, the binding device 4 is used for binding the objects to be bound, the interaction device 5 is used for man-machine interaction between a user and the binding machine, the measuring device 3 is used for measuring the length of a rubber tube required for binding the objects to be bound as a first length, and the storage device is used for storing the remaining length of the rubber tube in the binding machine as a second length.

The measuring device 3, the storage device, the binding device and the interaction device are all connected with the control device, and the control device can compare the first length with the second length and correspondingly control the binding device and the interaction device.

The binding method for binding materials by using the binding machine comprises the following steps:

and S1, placing the object to be bound on the workbench 2, and measuring the length of the rubber tube required by binding the object to be bound as a first length by the measuring device 3. And S2, the storage device stores the residual length of the rubber tube in the binding machine as a second length.

S3, comparing the first length with the second length: if the first length is larger than the second length, the interactive device 5 prompts a user, and the binding device 4 is not started; if the first length is smaller than the second length, the binding device 4 is activated.

With the arrangement, when the binding machine is used, the first length is firstly measured by the measuring device, the second length stored by the storage device is extracted, and the first length and the second length are compared and processed by the control device.

Specifically, if the first length is greater than the second length, that is, the remaining amount of the rubber tube in the binding machine is not enough to satisfy the thickness of the bound object, and the binding task cannot be completed, the control device correspondingly controls the interaction device to give a prompt to the user, and controls the binding device not to be started, for example, the interaction device prompts the user that the rubber tube has insufficient remaining amount through an alarm, a voice notification or a text notification, and the user needs to replace the rubber tube with the sufficient length or replace the object to be bound with the small thickness. If the first length is smaller than the second length, namely the remaining amount of the rubber tube in the binding machine is enough to meet the thickness of the bound object, the binding task can be normally finished, the control device correspondingly controls the binding device to start so as to bind the object to be bound, such as drilling and riveting.

That is to say, with the binding machine, before the binding treatment of the object to be bound, whether the allowance of the rubber tube can be used for normally binding the current object to be bound is judged, the binding treatment is carried out only when the allowance of the rubber tube is enough, and when the allowance of the rubber tube is not enough, the binding device is not started, the binding treatment is not carried out, namely, the drilling and riveting treatment can not be carried out on the object to be bound, so that the waste of the object to be bound can not be caused; in addition, when the residual quantity of the rubber tube in the binding machine is not enough to meet the requirement of binding the thickness of the objects to be bound, the interactive device prompts a user, and if the user replaces the objects to be bound with smaller thickness, the rubber tube with smaller residual length in the binding machine can be utilized instead of being discharged in a rough manner, so that the rubber tube waste is prevented.

In summary, the binding method solves the technical problem that the binder in the prior art is easy to cause waste of objects to be bound or rubber tubes due to insufficient rubber tube allowance.

Preferably, in this embodiment, in step S3, the interaction device 5 prompts the user with: if the user selects 'yes', the binding machine discharges the residual rubber tube to replenish the rubber tube for the user again; if the user selects "no", the interactive device 5 prompts the user to replace the object to be bound with a smaller thickness.

With the arrangement, the user realizes the bidirectional man-machine interaction with the binding machine through the interaction device 5, so that the binding machine is more intelligent and simpler to use.

In summary, the binding method provides more choices for users, and compared with the prior art that the residual rubber tube is discharged in a rough manner, the user can select the objects to be bound with smaller thickness to make full use of the residual rubber tube, so that the binding cost is reduced, the waste of rubber tube discharge is reduced, and the environmental pollution caused by the waste is relieved.

Preferably, referring to fig. 2, 3 and 4, the measuring device 3 includes a pressing arm 31 connected to the frame 1, a measuring grating 32 connected to the pressing arm 31, and a measuring optocoupler 33 correspondingly inductively connected to the measuring grating 32, the measuring optocoupler 33 is fixedly disposed on the frame 1, and the pressing arm 31 is disposed above the worktable 2 and can be close to or far from the worktable 2; the pressing arm 31 is close to the workbench 2, so that the measuring grating 32 can synchronously move relative to the measuring optocoupler 33.

When the binding machine is used, an object to be bound is placed on the workbench 2, the pressing arm 31 is close to the workbench 2 to enable the pressing arm 31 to press the object to be bound, the pressing arm 31 moves to drive the measuring grating 32 connected with the pressing arm 31 to move synchronously with the pressing arm 31, and therefore the moving distance of the pressing arm 31 is the same as the moving distance of the measuring grating 32 relative to the measuring optical coupler 33.

Wherein, measure the in-process that grating 32 removed relatively the measurement opto-coupler 33, the measuring signal that the transmitting terminal of measurement opto-coupler 33 sent can be sheltered from and release repeatedly by the grating peak and the gap of measurement grating 32, consequently, the measuring signal that the receiving terminal of measurement opto-coupler 33 received is pulse signal, the measuring distance of grating 32 can be calculated to the quantity of the pulse signal of receiving terminal receipt through statistics measurement opto-coupler 33, also calculate the displacement of pressing arm 31, consequently, can calculate the thickness of waiting to bind the thing, can know the length of binding the required rubber tube of this waiting to bind the thing by the thickness of waiting to bind the thing.

Preferably, referring to fig. 5, in the present embodiment, the pressing arm 31 is connected to the grating 32 through the measuring rope 34, so that when the pressing arm 31 moves relative to the table 2, the measuring rope 34 can drive the grating 32 to move synchronously.

Preferably, referring to fig. 4 and 5, in the present embodiment, the measuring device 3 further includes a sliding rod 35 and a slideway; the slide bar 35 is arranged on the measuring grating 32, the slide way is arranged on the workbench 2, and the slide bar 35 is arranged in the slide way and can slide along the slide way; when the pressure arm 31 is close to or far away from the workbench 2, the measurement grating 32 drives the slide rod 35 to slide along the slide way.

When the press arm 31 is close to or far away from the workbench 2, the slide rod 35 slides along the slide way to provide a guiding function for the movement of the measuring grating 32, so that the movement of the measuring grating 32 is more stable, and the numerical value of the length of the rubber tube required by the binding of the objects to be bound is more accurate.

It should be noted that, when the width of the grating peak of the measurement grating 32 is the first distance D, the width of the gap between adjacent grating peaks is the second distance E, and the pressure arm 31 is close to the table 2 so that the pressure arm 31 contacts the table 2, the number of grating peaks that the measurement grating 32 moves relative to the measurement optocoupler 33 is the first number C.

Referring to fig. 6, when the pressing arm 31 approaches the worktable 2 so that the number of the grating peaks of the measuring grating 32 moving relative to the measuring optocoupler 33 is the second number h, the thickness of the object to be bound is the first thickness f, where f is (C-h) × (D + E), and i is f + L; and L is the loss amount of pressure riveting at two ends of the rubber pipe after the pressure riveting treatment, and the second number h is smaller than the first number C.

It should be noted that the width of the grid peak of the measurement grating 32 is the first distance D, and the width of the gap between adjacent grid peaks is the second distance E, so the sum of the first distance D and the second distance E is the sum of one grid peak and one gap of the measurement grating 32, that is, one unit length of the measurement grating 32, please refer to fig. 6C, C (D + E) is the maximum distance that the measurement grating 32 can move when the pressure arm 31 contacts the worktable 2, the maximum distance is the third distance a, the moving distance of the pressure arm 31 is equal to the moving distance of the measurement grating 32, and therefore, the maximum distance that the pressure arm 31 can move is also the third distance a.

In the same way, referring to fig. 6a, the distance between the pressing arm 31 and the worktable 2 is larger in the standby state, referring to fig. 6b, when the object to be bound is placed on the worktable 2, and the pressing arm 31 is pressed down to press the object to be bound, the pressing arm 31 stops moving, so the movement of the measuring grating 32 stops, if the number of the grating peaks moved by the measuring optical coupler 33 is the second number h, h (D + E) is the moving distance of the measuring grating 32 when the number of the grating peaks moved by the measuring optical coupler 33 is the second number h, and the distance is the fourth distance j.

Referring to fig. 6, the difference between the third distance a and the fourth distance j is the first thickness f of the object to be bound, so that the first thickness f is (a-j) × (C-h) × (D + E).

In addition, after the rubber tube is press-riveted to the object to be bound, both ends of the rubber tube are damaged, and the consumed amount L is a standard known value, so that the first length i is f + L.

In summary, the bookbinding machine uses the above method to press the object to be bound by the pressing arm 31 and drive the measuring grating 32 to move, the measuring optical coupler 33 detects the pulse number generated by the movement of the measuring grating 32, the using length of the rubber tube is obtained by calculating the pulse data, the thickness of the object to be bound is obtained by calculating the using length of the rubber tube again, the measuring method is simple, and the realization is convenient.

Optionally, the memory is configured to store and update the value of the second length or the first length of the rubber tube in the binding machine in real time, and preferably, in this embodiment, the memory is configured to store and update the value of the second length and the value of the first length in real time.

After the hose having the total length of the third length n is supplied to the binding machine, the length of the hose required for binding the objects to be bound is the first length i each time, so that the remaining length of the hose after one binding is the second length m-i, and after the next binding, the length of the hose is subtracted again by the first length i, so that the value of (m-i) is updated to the second length m, and a new second length m is formed and stored in the memory.

Optionally, the memory is an EEPROM memory, and the EEPROM memory records the data for the next use, and updates and permanently stores the real-time data.

Preferably, in this embodiment, the memory is further configured to store and update the first thickness and the accumulated value of the first thickness in real time.

The integrated value of the first thickness is a total binding thickness of the binding machine.

This book-binding machine orders thickness through the remaining length of storage and the numerical value of the interior rubber tube of real-time update book-binding machine, the total assembly of first length and book-binding machine, and the user can extract when needing, has obviously improved user experience, has promoted the intelligent degree of book-binding machine.

Preferably, referring to fig. 7, in the embodiment, the interaction device 5 of the binding machine is a touch display screen, and the first length, the second length, the first thickness and the accumulated value of the first thickness are all displayed on the display screen.

The touch display screen provides an operable interface for human-computer interaction, so that the human-computer interaction operation can be realized very friendly, and the use of the binding machine is more intelligent.

By means of the arrangement, the display of the first length, the second length, the first thickness and the accumulated value of the first thickness is more visual, a user can know the real-time state of the binding machine in real time, the user experience is obviously improved, and the intelligent degree of the binding machine is further improved.

Preferably, in this embodiment, the binding device 4 includes a material cutting mechanism, a hole punching mechanism, and a rivet pressing mechanism; the blank mechanism can cut the rubber tube into the small section matched with the thickness of the object to be bound, the punching mechanism can drill the object to be bound, and the press riveting mechanism can penetrate the cut rubber tube into the drill holes.

Optionally, the control device is a single chip microcomputer, and the binding method is implemented by programming and adopting embedded program control.

Preferably, referring to fig. 7, the binding machine further includes a housing 6, the housing 6 is covered outside the frame 1, and the display screen is disposed on the housing.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. The binding machine is characterized by comprising a rack (1), a workbench (2), a measuring device (3), a storage device, a control device, a binding device (4) and an interaction device (5), wherein the workbench (2), the measuring device (3), the storage device, the control device, the binding device (4) and the interaction device are all connected to the rack (1);

the worktable (2) is used for bearing objects to be bound, the binding device (4) is used for binding the objects to be bound, the interaction device (5) is used for man-machine interaction between a user and the binding machine, the measuring device (3) is used for measuring the length of a rubber tube required by binding the objects to be bound as a first length, and the storage device is used for storing the remaining length of the rubber tube in the binding machine as a second length;

the measuring device (3), the storage device, the binding device and the interaction device are all connected with the control device, and the control device can compare the first length with the second length and correspondingly control the binding device and the interaction device.

2. The binding machine according to claim 1, characterized in that the measuring device (3) comprises a pressing arm (31) connected to the frame (1), a measuring grating (32) connected to the pressing arm (31), and a measuring optocoupler (33) in inductive connection with the measuring grating (32), wherein the measuring optocoupler (33) is fixedly arranged on the frame (1), and the pressing arm (31) is arranged above the worktable (2) and can be close to or far away from the worktable (2);

the pressure arm (31) is close to the workbench (2) and can enable the measuring grating (32) to synchronously move relative to the measuring optical coupler (33).

3. -the binding machine according to claim 2, characterized in that the measuring device (3) further comprises a slide bar (35) and a slide;

the sliding rod (35) is arranged on the measuring grating (32), the slide way is arranged on the workbench (2), and the sliding rod (35) is arranged in the slide way and can slide along the slide way;

when the pressure arm (31) is close to or far away from the workbench (2), the measuring grating (32) drives the sliding rod (35) to slide along the slide way.

4. The binding machine according to claim 2, characterized in that the width of the peaks of the measuring grating (32) is a first distance D, the width of the gap between adjacent peaks is a second distance E, and the number of peaks of the measuring grating (32) moving relative to the measuring optocoupler (33) when the pressing arm (31) approaches the worktable (2) so that the pressing arm (31) contacts the worktable (2) is a first number C;

when the pressure arm (31) approaches the workbench (2) so that the number of grating peaks of the measuring grating (32) moving relative to the measuring optocoupler (33) is a second number h, the thickness of the object to be bound is a first thickness f, wherein f is (C-h) × (D + E), and the second number h is smaller than the first number C.

5. The binding machine of claim 4, wherein the first length is i, and i ═ f + L;

wherein L is the loss amount of the pressure riveting at the two ends of the rubber pipe after the pressure riveting treatment.

6. The binding machine of claim 4, wherein the storage device is a memory that is electrically disconnectable, and the memory is configured to store and update the value of the first length in real time.

7. The stapler of claim 6, wherein the memory is configured to store and update the value of the second length in real time.

8. The stapler of claim 7, wherein the memory is further configured to store and update the first thickness and the cumulative value of the first thickness in real time.

9. The binding machine according to claim 8, wherein the interaction means (5) is a touch screen display, and the first length, the second length, the first thickness and the cumulative value of the first thickness are all displayed on the touch screen display.

10. -binding machine according to any one of the claims 1 to 9, characterised in that the binding device (4) comprises a blanking mechanism, a hole punching mechanism and a clinching mechanism;

blank mechanism can cut into the rubber tube and wait to bind the thickness assorted segment of thing, the mechanism of punching can be waited to bind the thing and bore, press and rivet the mechanism and can penetrate more than the drilling with the rubber tube that cuts well in.

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