CN202702923U - Rotating tube delivery mechanism and binding machine with same - Google Patents

Abstract

The utility model discloses a rotating tube delivery mechanism, which comprises a rotating component and a lifting component. The lifting component comprises a lifting motor, a sliding block and a guide shaft. The guide shaft is longitudinally arranged. The sliding block is sleeved on the guide shaft through a sliding hole in the sliding block, and is in sliding fit with thee guide shaft in upward and downward directions. A rack parallel to the guide shaft is arranged on the lateral surface of the sliding block. An output shaft of the lifting motor is in transmission connection with the rack through a gear. One end, which faces a rotating block, of the sliding block transversely extends from a platform lifting the rotating block from bottom. The flexibility, stability, accuracy, working efficiency and the like of the rotating tube delivery mechanism are remarkably improved. The utility model also discloses a binding machine with the rotating tube delivery mechanism.

Description

A kind of binder that turns round tube feeding mechanism and be provided with this mechanism

Technical field

The utility model relates to the binder technical field, particularly utilizes the press revolution tube feeding mechanism of binding machine of the file of bookbinding of bookbinding pipe.The utility model also relates to the binder that is provided with described revolution tube feeding mechanism.

Background technology

The bookbinding method that presses is a kind of method of utilizing hollow bookbinding pipe to press and bind, be suitable for binding the files such as folio, bill, archives, generally include punching, Pipe Cutting, send pipe, several processing steps such as press, its principle is with loose page or leaf compression and after getting out binding hole, insert the plastic conduit of certain-length, utilize up and down two ends of top heated mould and bottom heated mould pushing plastic conduit, make its respectively melting deformation become flange shape, thereby finish the clamping bookbinding to paper.

The concrete structure of this type of binder can be with reference to proposing on October 16th, 2006 such as the applicant, and the patent of invention ZL 200610150287.1 that obtains the authorization and ZL 200610150288.6.This binder mainly comprises frame, shell, workbench, paper-pressing mechanism, perforating mechanism, lower pipe mechanism, tube cutting mechanism, revolution tube feeding mechanism, binder mechanism and circuit control device press, wherein workbench is separated into up and down two working regions with frame, the working region of workbench top arranges the upper rivet body of paper-pressing mechanism, perforating mechanism, lower pipe mechanism, tube cutting mechanism and the binder mechanism that presses, the working region of workbench below arranges the lower rivet body of revolution tube feeding mechanism and the binder mechanism that presses, and circuit control device is with each motor, rivet body and travel switch electrical connection.

Wherein, the revolution tube feeding mechanism comprises gyroaxis assembly and mother lead screw assembly, the gyroaxis assembly mainly is comprised of turning motor, gyroaxis, the axis of guide and gripper shoe, gyroaxis longitudinally is installed between workbench and the framework soleplate, its lower end is fixed with gear, and this gear is meshed with gear on the turning motor output shaft, and gripper shoe is sleeved on the gyroaxis and with its gear and fixes, the axis of guide is installed on the outer face of gripper shoe, parallels with gyroaxis.

The mother lead screw assembly mainly is comprised of leading screw movable motor, leading screw, nut and the axis of guide, leading screw and the axis of guide longitudinally are installed between workbench and the framework soleplate, the bottom of leading screw is fixed with pinion, this gear is meshed with gear on being fixed on leading screw movable motor output shaft, nut is elongated, offer on it respectively and assemble screwed hole and the slide opening that closes with leading screw and guideway, and offer a socket at front end face.

The lower rivet body of binder mechanism of pressing is sleeved on the gyroaxis assembly by the single-revolution piece, gyration block one end and middle part offer respectively and slide up and down the through hole that cooperates with gyroaxis and the axis of guide, be fixed with moving mass on the side of gyration block, this moving mass stretches into the socket on the above-mentioned nut front end face just when turning to gutter pos with gyration block and lower rivet body, the nut back end place of mother lead screw assembly is equipped with up and down two travel switches by riser, correspond respectively to moving up and down of lower rivet body and gyration block thereof spacing, lower rivet body and gyration block thereof also are equipped with limitation travel switch in a side of initial position by riser

During the work of revolution tube feeding mechanism, after cut bookbinding pipe drops on the riveting pin of lower rivet body, turned an angle by the gyroaxis assembly and it to be moved to the below of binding hole, by the mother lead screw assembly lower rivet body is upwards lifted again, send in the binding hole thereby will bind pipe, whole process is controlled by travel switch.

This revolution tube feeding mechanism has adopted gyroaxis assembly and mother lead screw assembly, compare with traditional cylindrical cam form, has obvious advantage aspect flexibility, stationarity and the accuracy of transmission, but after through actual the use, discovery still has further perfect leeway, specifically, following several aspect is arranged:

At first, when rivet body turns to gutter pos instantly, moving mass stretches into the socket on the nut front end face, gyration block is upwards lifted together with lower rivet body by moving mass by the mother lead screw assembly, thereby will bind pipe sends in the binding hole, because moving mass is positioned at the side of gyration block, therefore when the mother lead screw assembly upwards lifts gyration block, gyration block is stressed and uneven, the deflection of certain angle can occur, can cause on the one hand the position of lower rivet body to occur changing, and then impact bookbinding precision, can cause on the other hand gyration block to cooperate with sliding up and down of gyroaxis and the axis of guide smooth and easy not, not only can wear and tear gyroaxis and the axis of guide, even clamping stagnation appears.

Secondly, the transmission efficiency of mother lead screw assembly is relatively low, be generally 50%, more can not surpass 60%, therefore, it is relatively long that the mother lead screw assembly upwards lifts the time that gyration block spends, greatly about 4 ~ 6 seconds, also need the same time during whereabouts, when bookbinding in enormous quantities, can have a strong impact on binding efficiency.

Therefore, how further improving flexibility, stationarity, accuracy and the operating efficiency of binder revolution tube feeding mechanism, is the present technical issues that need to address of those skilled in the art.

The utility model content

The first purpose of the present utility model provides a kind of revolution tube feeding mechanism.This revolution tube feeding mechanism all is able to remarkable lifting at aspects such as flexibility, stationarity, accuracy and operating efficiencies.

The second purpose of the present utility model provides a kind of binder that is provided with described revolution tube feeding mechanism.

For realizing above-mentioned the first purpose, the utility model provides a kind of revolution tube feeding mechanism, comprises gyro black assembly and lifting assembly, and described lifting assembly comprises lifting motor, slide block and the axis of guide; The described axis of guide vertically arranges, described slide block is set in the described axis of guide by the slide opening on it, and both slide up and down cooperation; The side of described slide block is provided with the tooth bar that is parallel to the described axis of guide, and the output shaft of described lifting motor is connected with described rack-driving by gear; Described slide block is met to an end of described gyration block and is laterally extended the platform of lifting described gyration block from the bottom.

Preferably, the gyration block side of described gyro black assembly is provided with moving mass, and described slide block is met to the side of described gyration block and is provided with the groove that holds described moving mass.

Preferably, be provided with in the slide opening of described slide block with the described axis of guide and slide up and down the linear bearing that cooperates.

Preferably, the described axis of guide comprises first axis of guide and second axis of guide that parallels, and described slide block is provided with corresponding the first slide opening and the second slide opening.

Preferably, the circular turned track of the riveting pin of the circle center line connecting of described first axis of guide and second axis of guide and described gyro black assembly is tangent.

Preferably, described tooth bar is installed on the unfilled corner zone of described slide block side.

Preferably, described gyro black assembly comprises turning motor, gyroaxis, the axis of guide and gripper shoe, described gyroaxis is vertically arranged, its lower end is fixed with gear, this gear is meshed with gear on the described turning motor output shaft, described gripper shoe is sleeved on the gyroaxis and with its gear and fixes, and the described axis of guide is installed on the outer face of gripper shoe, parallels with gyroaxis.

Preferably, lower rivet body is installed on the described gyration block, and is at one end reached the middle part and offer respectively and slide up and down the through hole that cooperates with described gyroaxis and the axis of guide.

Preferably, the rear end of described slide block is equipped with the first travel switch and the second travel switch by riser, corresponds respectively to moving up and down of gyration block spacing, and described gyration block is equipped with the third trip switch in a side of initial position by riser.

For realizing above-mentioned the second purpose, the utility model provides a kind of binder, comprise frame, shell, workbench, paper-pressing mechanism, perforating mechanism, lower pipe mechanism, tube cutting mechanism, revolution tube feeding mechanism, binder mechanism and circuit control device press, described revolution tube feeding mechanism is above-mentioned each described revolution tube feeding mechanism, and is located at the working region of described workbench below.

Revolution tube feeding mechanism provided by the utility model is upwards lifted gyration block together with lower rivet body by lifting assembly when lower rivet body turns to gutter pos, sends in the binding hole thereby will bind pipe.Because lifting assembly is met to an end of gyration block at slide block and is laterally extended the platform of lifting gyration block from the bottom, therefore when slide block upwards lifts gyration block, the gyration block stress balance, skewness can not appear, changing can not appear in the position of on the one hand lower rivet body, guaranteed the bookbinding precision, gyration block cooperates more flexible, steady, accurate with sliding up and down of gyroaxis and the axis of guide on the other hand.In addition, the transmission efficiency of rack-and-pinion is relatively high, can reach 99%, and it is relatively short that slide block upwards lifts the time that gyration block spends, and greatly about 1 ~ 2 second, also only needs the same time during whereabouts, improved greatly binding efficiency, is suitable for bookbinding in enormous quantities.

In a kind of preferred scheme, the gyration block side of described gyro black assembly is provided with moving mass, and described slide block is met to the side of described gyration block and is provided with the groove that holds described moving mass.Because in uphill process; slide block is from the bottom gyration block to be held up; therefore on principle; in the decline process, but the gyration block free-falling, but for fear of catching phenomenon occurring; here moving mass and groove structure have been designed; gyration block and slide block are entrenched togather, drive gyration block by slide block and fall, guarantee that gyration block can be according to the designing requirement precision maneuver.

The binder that the utility model provides is provided with described revolution tube feeding mechanism, because described revolution tube feeding mechanism has above-mentioned technique effect, the binder that is provided with this revolution tube feeding mechanism also should possess corresponding technique effect.

Description of drawings

Fig. 1 provides the front view of a kind of specific embodiment of revolution tube feeding mechanism for the utility model;

Fig. 2 is the top view of revolution tube feeding mechanism shown in Figure 1.

Among the figure:

1. turning motor 2. gyration block 2-1. roller 2-2. moving mass 3. gyroaxises 4. axis of guides 5. gripper shoes 6. workbench 7. framework soleplates 8. gears 9. roller supports 10. lifting motor 10-1. gears 11. slide block 11-1. platform 11-2. groove 12-1. the first axis of guide 12-2. the second axis of guide 13-1. die 13-2. riveting pin 14. tooth bars 15. first travel switches 16. third trip switches 17. guide rails 18. fourth line journey switches

The specific embodiment

Core of the present utility model provides a kind of revolution tube feeding mechanism.This revolution tube feeding mechanism all is able to remarkable lifting at aspects such as flexibility, stationarity, accuracy and operating efficiencies.

Another core of the present utility model provides a kind of binder that is provided with described revolution tube feeding mechanism.

In order to make those skilled in the art person understand better the utility model scheme, the utility model is described in further detail below in conjunction with the drawings and specific embodiments.

Please refer to Fig. 1, Fig. 2, Fig. 1 provides the front view of a kind of specific embodiment of revolution tube feeding mechanism for the utility model; Fig. 2 is the top view of revolution tube feeding mechanism shown in Figure 1.

In a kind of specific embodiment, the revolution tube feeding mechanism that the utility model provides mainly is made of gyro black assembly and lifting assembly two large divisions, and wherein, gyro black assembly comprises the parts such as turning motor 1, gyration block 2, gyroaxis 3, the axis of guide 4 and gripper shoe 5.

Gyroaxis 3 longitudinally is installed between workbench 6 and the framework soleplate 7, its lower end is fixed with gear 8, this gear 8 is meshed with gear on turning motor 1 output shaft, the below of turning motor 1 is lined with cushion block, gripper shoe 5 is sleeved on the gyroaxis 3 and with gear 8 and fixes, the axis of guide 4 is installed in an outward extending end of gripper shoe 5 and parallels with gyroaxis 3, and 1 rotating of control turning motor can drive gyro black assembly and swing back and forth between initial position and gutter pos.

Gyration block 2 offers the through hole that is inserted in respectively gyroaxis 3 and the axis of guide 4 in the position at one end and close middle part, and slides up and down with it cooperation, is provided with linear bearing between gyroaxis 3 and the gyration block 2.

Lower rivet body comprises die 13-1 and riveting pin 13-2, is installed in the cantilever end of gyration block 2.

Roller 2-1 is installed on the front end face of gyration block 2, framework soleplate 7 is fixed with upright roller support 9 in the initial position of lower rivet body gyration block, the top way roller one side bending of this roller support 9, the inboard is fixed with the round magnet steel for absorption roller 2-1, and the outside is fixed with the square magnet steel for absorption circle magnet steel.

Lifting assembly comprises the parts such as lifting motor 10, slide block 11 and the axis of guide; The axis of guide is vertically arranged, comprise the first axis of guide 12-1 and the second axis of guide 12-2 that parallel, slide block 11 is provided with corresponding the first slide opening and the second slide opening, slide block 11 is set in the axis of guide by the slide opening on it, both slide up and down cooperation, be provided with in the slide opening of slide block 11 with the axis of guide and slide up and down the linear bearing that cooperates, on top view, the circular turned track of the circle center line connecting of the first axis of guide 12-1 and the second axis of guide 12-2 and riveting pin 13-2 is in tangent position.

The side of slide block 11 is provided with 90 ° of unfilled corner zones, and in this zone the tooth bar 14 that is parallel to the axis of guide is installed, and the output shaft of lifting motor 10 is meshed with tooth bar 14 by gear 10-1.

Slide block 11 laterally extends for the platform 11-1 that upwards lifts gyration block from the bottom meeting to an end of gyration block 2.Like this, when slide block 11 upwards lifts gyration block, gyration block 2 stress balances, skewness can not appear, changing can not appear in the position of the lower rivet body of one side, has guaranteed the bookbinding precision, and gyration block 2 cooperates more flexible, steady, accurate with sliding up and down of gyroaxis 3 and the axis of guide 4 on the other hand.In addition, the transmission efficiency of rack-and-pinion is relatively high, can reach 99%, and it is relatively short that slide block 11 upwards lifts the time that gyration block 2 spends, and greatly about 1 ~ 2 second, also only needs the same time during whereabouts, improved greatly binding efficiency, is suitable for bookbinding in enormous quantities.

The side of slide block 11 is provided with a groove 11-2, and the side of gyration block 2 is provided with moving mass 2-2, and this moving mass 2-2 enters among the groove 11-2 of slide block when turning to gutter pos with gyration block and lower rivet body just.Gyration block 2 and slide block 11 are entrenched togather, in the decline process, can drive gyration block 2 by slide block 11 and fall like this, guarantee that gyration block 2 can be according to the designing requirement precision maneuver.

The rear end of slide block 11 is equipped with the first travel switch 15 and the second travel switch (the first travel switch only is shown among the figure) by riser, correspond respectively to moving up and down of gyration block 2 spacing, gyration block 2 is equipped with third trip switch 16 in a side of initial position by riser.

Lifting assembly is provided with outstanding solid lower rivet body limiting plate on the workbench bottom surface on one side at the platform of slide block 11, and this limiting plate has the guide rail 17 that matches with above-mentioned rollers 2-1, and guide rail 17 bottoms one side offers one section breach.

When turning to gutter pos with gyration block and lower rivet body, roller 2-1 just enters guide rail 17 by this breach, limiting plate is equipped with fourth line journey switch 18 at the opposite side relative with its breach, just can trigger the trip switch when rivet body is turned back to the binding hole below instantly, and then begin and to move to gutter pos on the lower rivet body by lifting assembly, the stationarity when can further improve mechanism kinematic by roller 2-1 with cooperating of guide rail 17 and bookbinding precision.

Above-mentioned revolution tube feeding mechanism only is a kind of preferred version, and its concrete structure is not limited to this, can make according to actual needs pointed adjustment on this basis, thereby obtains different embodiments.Because mode in the cards is more, for saving length, this paper just illustrates no longer one by one.

Except the revolution tube feeding mechanism, the utility model also provides a kind of binder, comprises frame, shell, workbench, paper-pressing mechanism, perforating mechanism, lower pipe mechanism, tube cutting mechanism, revolution tube feeding mechanism, binder mechanism and circuit control device press.

Workbench is separated into up and down two working regions with frame, the working region of workbench top arranges the upper rivet body of paper-pressing mechanism, perforating mechanism, lower pipe mechanism, tube cutting mechanism and the binder mechanism that presses, the working region of workbench below arranges the lower rivet body of revolution tube feeding mechanism and the binder mechanism that presses, circuit control device is with each motor, rivet body and travel switch electrical connection, wherein turn round tube feeding mechanism and be specially revolution tube feeding mechanism mentioned above, all the other structures please refer to prior art, and this paper repeats no more.

Above revolution tube feeding mechanism provided by the utility model and binder are described in detail.Used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand core concept of the present utility model.Should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model principle, can also carry out some improvement and modification to the utility model, these improvement and modification also fall in the protection domain of the utility model claim.

Claims (10)

1. a revolution tube feeding mechanism comprises gyro black assembly and lifting assembly, it is characterized in that, described lifting assembly comprises lifting motor, slide block and the axis of guide; The described axis of guide vertically arranges, described slide block is set in the described axis of guide by the slide opening on it, and both slide up and down cooperation; The side of described slide block is provided with the tooth bar that is parallel to the described axis of guide, and the output shaft of described lifting motor is connected with described rack-driving by gear; Described slide block is met to an end of described gyration block and is laterally extended the platform of lifting described gyration block from the bottom.

2. revolution tube feeding mechanism according to claim 1 is characterized in that, the gyration block side of described gyro black assembly is provided with moving mass, and described slide block is met to the side of described gyration block and is provided with the groove that holds described moving mass.

3. revolution tube feeding mechanism according to claim 1 is characterized in that, is provided with in the slide opening of described slide block with the described axis of guide and slides up and down the linear bearing that cooperates.

4. revolution tube feeding mechanism according to claim 1 is characterized in that, the described axis of guide comprises first axis of guide and second axis of guide that parallels, and described slide block is provided with corresponding the first slide opening and the second slide opening.

5. revolution tube feeding mechanism according to claim 4 is characterized in that, the circular turned track of the circle center line connecting of described first axis of guide and second axis of guide and the riveting pin of described gyro black assembly is tangent.

6. revolution tube feeding mechanism according to claim 1 is characterized in that, described tooth bar is installed on the unfilled corner zone of described slide block side.

7. revolution tube feeding mechanism according to claim 1, it is characterized in that, described gyro black assembly comprises turning motor, gyroaxis, the axis of guide and gripper shoe, described gyroaxis is vertically arranged, its lower end is fixed with gear, and this gear is meshed with gear on the described turning motor output shaft, and described gripper shoe is sleeved on the gyroaxis and with its gear and fixes, the described axis of guide is installed on the outer face of gripper shoe, parallels with gyroaxis.

8. revolution tube feeding mechanism according to claim 7 is characterized in that, lower rivet body is installed on the described gyration block, and at one end reaches the middle part and offer respectively and slide up and down the through hole that cooperates with described gyroaxis and the axis of guide.

9. revolution tube feeding mechanism according to claim 1, it is characterized in that, the rear end of described slide block is equipped with the first travel switch and the second travel switch by riser, correspond respectively to moving up and down of gyration block spacing, described gyration block is equipped with the third trip switch in a side of initial position by riser.

10. binder, comprise frame, shell, workbench, paper-pressing mechanism, perforating mechanism, lower pipe mechanism, tube cutting mechanism, revolution tube feeding mechanism, binder mechanism and circuit control device press, it is characterized in that, described revolution tube feeding mechanism is the claims 1 to 9 each described revolution tube feeding mechanisms, and is located at the working region of described workbench below.

Images