CN214566369U - Binding belt binding mechanism - Google Patents

Abstract

The utility model discloses a binding belt binding mechanism, which comprises a binding belt bending structure, a single belt pushing structure, a binding belt downward moving structure and a structure mounting plate; the ribbon bending structure comprises a bending cylinder, a cylinder fixing plate, a module and a bending male die; the single-belt pushing structure comprises a pushing cylinder, a cylinder connecting plate, a pushing piece, a guide seat and a guide plate; the ribbon moves down the structure and includes that the cylinder moves down, move down ejector pad and storage cavity. The binding mechanism is mainly applied to a production line for binding products, realizes automatic binding of the products, and can bind the products at one time, thereby greatly improving the production efficiency and stability.

Description

Binding belt binding mechanism

Technical Field

The utility model relates to a technical field of packing especially relates to a mechanism is binded to ribbon.

Background

Along with the development of the industrial modernization process, more and more products are fixed by adopting a ribbon binding mode, so that the products are conveniently displayed and the space is saved.

In the production process of binding products by the conventional binding belt, most of the products are fixed by manually threading, tensioning and shearing redundant binding belts by scissors, so that the production efficiency is low. Along with the continuous improvement of cost of labor, the enterprise need carry out the robot and trade people, replaces manual assembly through automatic or semi-automatization machine, and aim at improves production efficiency, reduce cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the utility model provides a mechanism is binded to ribbon for solve the problem that prior art exists.

To achieve the purpose, the utility model adopts the following technical proposal:

a binding belt binding mechanism comprises a binding belt bending structure, a single belt pushing structure, a binding belt downward moving structure and a structure mounting plate;

the ribbon bending structure comprises a bending cylinder, a cylinder fixing plate, a module and a bending male die, wherein the cylinder fixing plate is fixed above the structure mounting plate, the bending cylinder is fixed on the cylinder fixing plate, the driving end of the bending cylinder is connected with the module, and the bending male die is fixed on the structure mounting plate;

the single-belt push-out structure comprises a push cylinder, a cylinder connecting plate, a push piece, a guide seat and a guide plate, wherein a cylinder fixing seat is fixed on the structure mounting plate, the push cylinder is installed on the cylinder fixing seat, the driving end of the push cylinder is connected with the cylinder connecting plate, the push piece is fixed on the cylinder connecting plate, and the guide seat and the guide plate are both vertically installed on the structure mounting plate;

the ribbon moves down the structure and includes that the cylinder moves down, moves down ejector pad and storage cavity, the storage cavity is fixed on the structure mounting panel, the storage cavity with form the cavity between the deflector, it fixes to move down the cylinder on the cylinder fixed plate, it installs to move down the ejector pad move down on the drive end of cylinder, move down the ejector pad move in on the cavity.

As an optimal technical scheme, the binding belt downward moving structure further comprises a pressing buckle air cylinder and a pressing strip, the pressing buckle air cylinder is installed on the air cylinder fixing plate, the pressing strip is located on two sides of the downward moving push block, and the pressing strip is connected with a driving end of the pressing buckle air cylinder.

As a preferred technical scheme, be provided with the ribbon on the structure mounting panel and arrange the material structure, the ribbon is arranged the material structure and is included material seat and baffle, the baffle is located material seat's both sides are crossed.

As an optimal technical scheme, be provided with the ribbon on the structural mounting board and push away material structure, the ribbon pushes away material structure and includes driving motor, motor cabinet, lead screw, movable nut, nut fixing base and scraping wings, be provided with the backup pad on the structural mounting board, the motor cabinet is fixed one side of backup pad, driving motor installs on the motor cabinet, the tip of lead screw with driving motor's drive end is connected, movable nut threaded connection is in on the lead screw, movable nut fixes on the nut fixing base, the nut fixing base with backup pad sliding connection, the scraping wings is connected on the nut fixing base.

As an optimal technical scheme, the ribbon pushes away material structure and still includes and pushes away the material guide rail and push away the material slider, it fixes to push away the material guide rail in the backup pad, it fixes to push away the material slider on the nut fixing base, it is in to push away material slider sliding connection push away on the material guide rail.

As a preferred technical scheme, a limit position sensor is arranged on the supporting plate, a sensing signal plate is fixed on one side of the nut fixing seat, and the sensing signal plate is in signal connection with the limit position sensor.

As a preferred technical scheme, be provided with the ribbon on the structure mounting panel and press from both sides tight structure, the ribbon presss from both sides tight structure and includes die clamping cylinder, presss from both sides tight fixing base and clamping jaw, the middle part of clamping jaw articulates the upper end of pressing from both sides tight fixing base, the one end of clamping jaw articulates on die clamping cylinder's drive end.

As an optimal technical scheme, be provided with the taut structure of ribbon on the structural mounting board, the taut structure of ribbon includes taut cylinder, taut fixing base, taut guide rail, taut slide and guide rail fixing base, taut fixing base is fixed the lower extreme of guide rail fixing base, taut cylinder is installed on the taut fixing base, the drive end of taut cylinder with the lower extreme of pressing from both sides tight fixing base is connected, taut slide is installed press from both sides one side of tight fixing base, taut guide rail sets up on the taut fixing base, taut slide with taut guide rail sliding connection.

As an optimal technical scheme, the structure is cut off to be provided with the ribbon on the structure mounting panel, the structure is cut off to the ribbon is including cutting off the cylinder and cutting off the cutter, cut off the cylinder and install the lower extreme of guide rail fixing base, it connects to cut off the cutter the drive of cylinder is served.

The utility model has the advantages that: the utility model provides a mechanism is binded to ribbon, this mechanism is binded to ribbon mainly is used in the production line of binding the product, for example toy, tableware or handicraft etc. realize automizing and bind the product, once only accomplish and bind the product, improved production efficiency and stability greatly, holistic structure is also compact, and is small, easily production manufacturing, and is with low costs, does benefit to extensive popularization and application.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

FIG. 1 is a first overall schematic construction of a strap binding mechanism according to an embodiment;

FIG. 2 is a second overall schematic of a strap binding mechanism according to an embodiment;

FIG. 3 is a first combination diagram of a strap discharging structure and a strap pushing structure according to an embodiment;

FIG. 4 is a second combination diagram of the ribbon discharge structure and the ribbon pushing structure according to the embodiment;

FIG. 5 is a first assembled schematic view of the strap bending mechanism, single strap ejection mechanism, and strap downshifting mechanism according to the embodiments;

FIG. 6 is a second combined schematic view of the strap bending mechanism, the single strap ejecting mechanism, and the strap moving down mechanism according to the embodiment;

FIG. 7 is a first combination schematic of a strap clamping mechanism, a strap tensioning mechanism, and a strap shearing mechanism according to an embodiment;

FIG. 8 is a second combined schematic view of the strap clamping mechanism, strap tensioning mechanism, and strap shearing mechanism of the embodiments;

FIG. 9 is a third combined schematic view of a strap clamping mechanism, a strap tensioning mechanism, and a strap shearing mechanism, according to an embodiment.

In fig. 1 to 9:

1. a ribbon discharge structure; 101. a material passing seat; 102. a baffle plate;

2. a ribbon pushing structure; 201. a drive motor; 202. a motor base; 203. a screw rod; 204. a movable nut; 205. a nut fixing seat; 206. a material pushing plate; 207. a support plate; 208. a material pushing guide rail; 209. a material pushing slide block; 210. an extreme position sensor; 211. a sensing signal plate;

3. a ribbon bending structure; 301. bending the air cylinder; 302. a cylinder fixing plate; 303. a module; 304. bending the male die;

4. a single belt push-out structure; 401. a material pushing cylinder; 402. a cylinder connecting plate; 403. a cylinder fixing seat; 404. pushing the material sheet; 405. a guide seat; 406. a guide plate;

5. a ribbon downward moving structure; 501. a downward moving cylinder; 502. moving the push block downwards; 503. a material storage cavity; 504. a cavity; 505. pressing a buckle cylinder; 506. layering;

6. a strap clamping structure; 601. a clamping cylinder; 602. clamping the fixed seat; 603. a clamping jaw;

7. a band tensioning structure; 701. tensioning the cylinder; 702. tensioning the fixed seat; 703. tensioning the guide rail; 704. tensioning the slide seat; 705. a guide rail fixing seat;

8. a ribbon shearing structure; 801. shearing a cylinder; 802. cutting off the cutter;

9. a structural mounting plate; 10. binding a belt; 11. a binding belt is buckled; 12. and (5) producing the product.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 9, in this embodiment, a band binding mechanism includes a band discharging structure 1, a band pushing structure 2, a band bending structure 3, a single band pushing structure 4, a band moving structure 5, a band clamping structure 6, a band tensioning structure 7, a band cutting structure 8, and a structure mounting plate 9.

Wherein, used many ribbons 10 connect through the tie point between ribbon 10 and become to arrange the material, and the one side takes the tooth, and the one side is smooth, and both ends chamfer is convenient for alternate.

In the ribbon buckle 11, the buckles at the two ends are connected through the reinforcing ribs, each buckle is provided with a square hole, so that the ribbon 10 can conveniently pass through, and the square holes are provided with thrust racks, so that the ribbon 10 is pulled more and more tightly and cannot be pulled out.

The ribbon discharge structure 1 comprises a material passing seat 101 and baffle plates 102, wherein the baffle plates 102 are positioned on two sides of the material passing seat 101.

The entire row of the cable ties 10 are placed on the material passing seat 101 in a stacking mode, the positions of the cable ties are limited by the baffle plates 102 on the two sides, manual loading time is shortened, and therefore production efficiency is improved.

Ribbon pushing equipment 2 includes driving motor 201, motor cabinet 202, lead screw 203, movable nut 204, nut fixing base 205 and scraping wings 206, be provided with backup pad 207 on the structure mounting panel 9, motor cabinet 202 is fixed one side of backup pad 207, driving motor 201 is installed on the motor cabinet 202, the tip of lead screw 203 with driving motor 201's drive end is connected, movable nut 204 threaded connection is in on the lead screw 203, movable nut 204 is fixed on the nut fixing base 205, nut fixing base 205 with backup pad 207 sliding connection, scraping wings 206 is connected on the nut fixing base 205.

More specifically, the ribbon pushes away material structure 2 and still includes and pushes away material guide rail 208 and material pushing slide 209, it fixes to push away material guide rail 208 on the backup pad 207, it fixes to push away material slide 209 on the nut fixing base 205, it connects in to push away material slide 209 sliding on pushing away material guide rail 208.

More specifically, a limit position sensor 210 is arranged on the supporting plate 207, a sensing signal plate 211 is fixed on one side of the nut fixing seat 205, and the sensing signal plate 211 is in signal connection with the limit position sensor 210.

When the driving motor 201 starts to work, power is transmitted to the lead screw 203, when the lead screw 203 rotates, the movable nut 204 drives the nut fixing seat 205 to horizontally move on the supporting plate 207 by means of the material pushing guide rail 208 and the material pushing slider 209, the nut fixing seat 205 moves to drive the material pushing plate 206 to move, when the material pushing plate 206 passes through the material passing seat 101, the bottommost ribbon 10 in the material passing seat 101 is pushed into the ribbon bending structure 3, after the pushing is finished, the material pushing plate 206 returns to the original position, and the final position of the return is controlled by means of signal connection between the sensing signal plate 211 and the extreme position sensor 210.

The ribbon bending structure 3 comprises a bending cylinder 301, a cylinder fixing plate 302, a module 303 and a bending male die 304, wherein the cylinder fixing plate 302 is fixed above the structure mounting plate 9, the bending cylinder 301 is fixed on the cylinder fixing plate 302, the driving end of the bending cylinder 301 is connected with the module 303, and the bending male die 304 is fixed on the structure mounting plate 9.

When the ribbon 10 is bent, the bending cylinder 301 controls the module 303 to move downwards, so that the ribbon 10 is pressed on the bending male die 304, and the female die on the module 303 and the bending male die 304 jointly enable the ribbon 10 to form a bent shape.

The single-belt pushing structure 4 comprises a pushing cylinder 401, a cylinder connecting plate 402, a pushing sheet 404, a guide seat 405 and a guide plate 406, the structure mounting plate 9 is fixedly provided with a cylinder fixing seat 403, the pushing cylinder 401 is mounted on the cylinder fixing seat 403, the driving end of the pushing cylinder 401 is connected with the cylinder connecting plate 402, the pushing sheet 404 is fixed on the cylinder connecting plate 402, and the guide seat 405 and the guide plate 406 are both vertically mounted on the structure mounting plate 9.

The ribbon 10 is bent and then formed on the bending male die 304, the pushing cylinder 401 starts to work, the pushing sheet 404 is pushed forwards through the cylinder connecting plate 402, the pushing sheet 404 enters the ribbon bending structure 3 after passing through the guide seat 405, the pushing cylinder 401 works each time to push the progress of a single ribbon 10, the single ribbon 10 enters the ribbon downward moving structure 5 through the guide plate 406, and at the moment, the pushing sheet 404 returns to the original point.

The structure 5 that moves down of ribbon includes that the cylinder 501 moves down, moves down ejector pad 502 and storage cavity 503, storage cavity 503 is fixed on the structure mounting panel 9, storage cavity 503 with form cavity 504 between the deflector 406, it fixes to move down the cylinder 501 on the cylinder fixed plate 302, move down ejector pad 502 and install on the drive end of moving down the cylinder 501, move down ejector pad 502 move in on the cavity 504.

Moreover, the tie moves down the structure 5 and still includes pressing buckle cylinder 505 and layering 506, press buckle cylinder 505 install on the cylinder fixed plate 302, layering 506 is located move down the both sides of ejector pad 502, layering 506 with press buckle cylinder 505's drive end to be connected.

The single ribbon 10 enters a cavity 504 formed by the storage cavity 503 and the guide plate 406, the downward moving cylinder 501 works to control the downward moving push block 502 to move downward, the single ribbon 10 is pushed out from the structural mounting plate 9, meanwhile, the pressing buckle cylinder 505 controls the pressing strip 506 to move downward, buckling compression is respectively formed on two sides of the single ribbon 10, the bent shape of the single ribbon 10 is kept, and the guiding function is achieved.

The cable tie clamping structure 6 comprises a clamping cylinder 601, a clamping fixed seat 602 and a clamping claw 603, wherein the middle part of the clamping claw 603 is hinged at the upper end of the clamping fixed seat 602, and one end of the clamping claw 603 is hinged at the driving end of the clamping cylinder 601.

When the single ribbon 10 is pushed out from the structure mounting plate 9, two ends of the ribbon 10 are respectively inserted into the square holes of the ribbon buckle 11, the clamping cylinder 601 controls the driving end to shrink in the horizontal direction, and under the driving of the clamping cylinder 601, the front end of the clamping claw 603 swings towards the middle to shrink and clamp the end of the ribbon 10.

The tie tensioning structure 7 comprises a tensioning cylinder 701, a tensioning fixing seat 702, a tensioning guide rail 703, a tensioning sliding seat 704 and a guide rail fixing seat 705, wherein the tensioning fixing seat 702 is fixed at the lower end of the guide rail fixing seat 705, the tensioning cylinder 701 is installed on the tensioning fixing seat 702, the driving end of the tensioning cylinder 701 is connected with the lower end of the clamping fixing seat 602, the tensioning sliding seat 704 is installed on one side of the clamping fixing seat 602, the tensioning guide rail 703 is arranged on the tensioning fixing seat 702, and the tensioning sliding seat 704 is connected with the tensioning guide rail 703 in a sliding manner.

After the cable tie 10 is clamped, tensioning is needed, the tensioning air cylinder 701 works to pull the cable tie clamping structure 6 down integrally, and the cable tie 10 is tightly bound with a product 12 to be bound by means of the guiding and sliding action of the tensioning guide rail 703 and the tensioning slide 704.

The ribbon cutting structure 8 comprises a cutting cylinder 801 and a cutting cutter 802, the cutting cylinder 801 is installed at the lower end of the guide rail fixing seat 705, and the cutting cutter 802 is connected to the driving end of the cutting cylinder 801.

After the binding is completed, the cutting cylinder 801 controls the cutting knife 802 to extend out, and the two ends of the redundant binding tape 10 are cut off, so that the binding process of the binding tape 10 is completed.

Of course, in the whole production process, the band buckle 11 is conveyed to the guide rail fixing seat 705 through a vibrating disk or an air cylinder for use.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the technical principles applied, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention.

Claims (9)

1. A binding belt binding mechanism is characterized by comprising a binding belt bending structure, a single belt pushing structure, a binding belt downward moving structure and a structure mounting plate;

the ribbon bending structure comprises a bending cylinder, a cylinder fixing plate, a module and a bending male die, wherein the cylinder fixing plate is fixed above the structure mounting plate, the bending cylinder is fixed on the cylinder fixing plate, the driving end of the bending cylinder is connected with the module, and the bending male die is fixed on the structure mounting plate;

the single-belt push-out structure comprises a push cylinder, a cylinder connecting plate, a push piece, a guide seat and a guide plate, wherein a cylinder fixing seat is fixed on the structure mounting plate, the push cylinder is installed on the cylinder fixing seat, the driving end of the push cylinder is connected with the cylinder connecting plate, the push piece is fixed on the cylinder connecting plate, and the guide seat and the guide plate are both vertically installed on the structure mounting plate;

the ribbon moves down the structure and includes that the cylinder moves down, moves down ejector pad and storage cavity, the storage cavity is fixed on the structure mounting panel, the storage cavity with form the cavity between the deflector, it fixes to move down the cylinder on the cylinder fixed plate, it installs to move down the ejector pad move down on the drive end of cylinder, move down the ejector pad move in on the cavity.

2. The binding mechanism of claim 1, wherein the binding belt downward moving structure further comprises a pressing and buckling cylinder and a pressing strip, the pressing and buckling cylinder is mounted on the cylinder fixing plate, the pressing strip is located on two sides of the downward moving push block, and the pressing strip is connected with a driving end of the pressing and buckling cylinder.

3. The mechanism of claim 1, wherein the structural mounting plate is provided with a strap discharging structure, the strap discharging structure comprises a material passing seat and a baffle plate, and the baffle plate is located on two sides of the material passing seat.

4. The binding belt binding mechanism according to claim 1, wherein a binding belt pushing structure is arranged on the structure mounting plate, the binding belt pushing structure comprises a driving motor, a motor base, a lead screw, a movable nut, a nut fixing base and a pushing plate, a supporting plate is arranged on the structure mounting plate, the motor base is fixed on one side of the supporting plate, the driving motor is installed on the motor base, the end portion of the lead screw is connected with the driving end of the driving motor, the movable nut is in threaded connection on the lead screw, the movable nut is fixed on the nut fixing base, the nut fixing base is in sliding connection with the supporting plate, and the pushing plate is connected on the nut fixing base.

5. The mechanism of claim 4, wherein the strap pushing structure further comprises a pushing guide rail and a pushing slider, the pushing guide rail is fixed on the support plate, the pushing slider is fixed on the nut fixing seat, and the pushing slider is slidably connected to the pushing guide rail.

6. A binding belt mechanism according to claim 4, characterized in that a limit position sensor is arranged on the supporting plate, a sensing signal plate is fixed on one side of the nut fixing seat, and the sensing signal plate is in signal connection with the limit position sensor.

7. The binding mechanism according to claim 1, wherein the structure mounting plate is provided with a binding belt clamping structure, the binding belt clamping structure comprises a clamping cylinder, a clamping fixing seat and a clamping claw, the middle part of the clamping claw is hinged at the upper end of the clamping fixing seat, and one end of the clamping claw is hinged at the driving end of the clamping cylinder.

8. The binding mechanism according to claim 7, wherein the structure mounting plate is provided with a binding belt tensioning structure, the binding belt tensioning structure comprises a tensioning cylinder, a tensioning fixing seat, a tensioning guide rail, a tensioning sliding seat and a guide rail fixing seat, the tensioning fixing seat is fixed at the lower end of the guide rail fixing seat, the tensioning cylinder is installed on the tensioning fixing seat, the driving end of the tensioning cylinder is connected with the lower end of the clamping fixing seat, the tensioning sliding seat is installed at one side of the clamping fixing seat, the tensioning guide rail is arranged on the tensioning fixing seat, and the tensioning sliding seat is slidably connected with the tensioning guide rail.

9. The mechanism of claim 8, wherein the structural mounting plate is provided with a strap shearing mechanism, the strap shearing mechanism comprises a shearing cylinder and a shearing cutter, the shearing cylinder is mounted at the lower end of the guide rail fixing seat, and the shearing cutter is connected to the driving end of the shearing cylinder.

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