CN112660454B - Ribbon perforating device of wire harness binding machine - Google Patents

Abstract

The invention discloses a ribbon perforating device of a wire harness binding machine, and aims to provide a ribbon perforating device of a wire harness binding machine, which is convenient to carry, can rapidly complete a ribbon perforating step, has high ribbon perforating efficiency and low ribbon perforating error rate. It includes the hand-held type casing, ribbon winding guider, the feeding guide slot that the opening of setting on the hand-held type casing is up, along the gliding ejector pad of feeding guide slot, be located feeding guide slot below and with the guide rail that the feeding guide slot parallels, along the gliding slide of guide rail, be used for driving the slide along the gliding slide reciprocating motion mechanism of guide rail and fix the push rod on the slide, feeding guide slot's bottom surface is equipped with the ribbon and crosses mouthful and the mouth is crossed to the bar, the ribbon crosses the output that mouthful is located feeding guide slot, ribbon winding guider is including being curved fixed guide claw and rotation guide claw, still the cover is equipped with adapter sleeve and compression spring on the push rod, be equipped with drive gear on the axostylus axostyle, be equipped with on the push rod and be used for with drive gear complex rack.

Description

Ribbon perforating device of wire harness binding machine

Technical Field

The invention relates to a wire harness binding machine, in particular to a ribbon perforating device of the wire harness binding machine.

Background

With the development of science and technology, electronic products are developing towards the direction of high capacity and high density, ports of the plugboard are more and more dense, and wiring harnesses in the plugboard are more and more dense. If put these pencil and put at will, will make the overall arrangement disorderly, can make the product maintenance become comparatively difficult moreover, still can influence the performance of complete machine, tie up the pencil regularly and lay and can solve this problem well. The conventional binding belt for binding the wiring harness is generally a plastic binding belt, a binding belt punching link is an important link for binding the plastic binding belt, and the binding belt punching link is to pass the tail of the plastic binding belt through a clamping hole at the head of the plastic binding belt; the prior binding machine has the problems of low efficiency of band perforation and high error rate of band perforation (the tail of the plastic band does not pass through the clamping hole at the head of the plastic band when the band is perforated, and the band perforation is in error).

Disclosure of Invention

The invention aims to provide a band perforating device of a wire harness binding machine, which is convenient to carry, can rapidly complete a band perforating step, has high band perforating efficiency and low band perforating error rate.

The technical scheme of the invention is as follows:

a ribbon perforating device of a wire harness binding machine comprises a handheld shell, a ribbon winding guide device, a feeding guide groove with an upward opening, a material pushing block sliding along the feeding guide groove, a guide rail which is positioned below the feeding guide groove and is parallel to the feeding guide groove, a sliding seat sliding along the guide rail, a sliding seat reciprocating mechanism for driving the sliding seat to slide along the guide rail and a push rod fixed on the sliding seat, wherein a ribbon passing opening and a strip passing opening extending along the length direction of the feeding guide groove are formed in the bottom surface of the feeding guide groove, the ribbon passing opening is positioned at the output end of the feeding guide groove, and the first end of the strip passing opening is close to the ribbon passing opening,

the ribbon winding guide device comprises an arc-shaped fixed guide claw and a rotary guide claw, the fixed guide claw is fixed on the handheld shell and is positioned above the output end of the feeding guide groove, the lower end of the fixed guide claw is close to the output end of the feeding guide groove, the rotary guide claw is rotatably arranged on the handheld shell through a shaft lever, and the rotary guide claw is positioned on the front side of the output end of the feeding guide groove;

the push rod is parallel to the guide rail, the output ends of the push rod and the feeding guide groove are positioned on the same side of the sliding seat, a push rod limiting block is arranged on the push rod, a connecting sleeve and a compression spring are further sleeved on the push rod, the push rod limiting block and the sliding seat are positioned on two opposite sides of the connecting sleeve, one end of the compression spring abuts against the connecting sleeve, the other end of the compression spring abuts against the sliding seat, the connecting sleeve abuts against the push rod limiting block under the action of the compression spring, a driving gear is arranged on the shaft rod, a rack matched with the driving gear is arranged on the push rod, the rack is parallel to the push rod, the rack and the connecting sleeve are positioned on two opposite sides of the push rod limiting block, the push rod and the connecting sleeve are connected through a connecting piece, and the connecting piece penetrates through a strip-shaped through hole,

in the process that the sliding seat moves towards the output end of the feeding guide groove along the guide rail, the sliding seat drives the material pushing block to move synchronously along the feeding guide groove through the push rod, the compression spring, the connecting sleeve and the connecting piece, when the connecting piece abuts against the first end of the strip-shaped through opening, the material pushing block stops moving, the material pushing block is close to or above the strip-shaped through opening at the moment, the rack and the driving gear are in a separated state, then, the sliding seat continues to drive the push rod and the rack to continue to move towards the output end of the feeding guide groove, so that the rack is meshed with the driving gear, and the upper end of the rotating guide claw is driven by the driving gear to rotate downwards towards the output end direction of the feeding guide groove.

The concrete work of the ribbon perforating device of the wire harness binding machine is as follows:

the slide base reciprocating mechanism drives the slide base to move to the output end of the feeding guide groove along the guide rail, and in the process, the slide base drives the material pushing block to synchronously move along the feeding guide groove through the push rod, the compression spring, the connecting sleeve and the connecting piece, so that a plastic ribbon in the feeding guide groove (the head of the plastic ribbon is propped against the material pushing block) is pushed to the output end of the feeding guide groove through the material pushing block; until the connecting piece abuts against the first end of the strip-shaped through hole, the pushing block stops moving, and the head of the plastic ribbon is located above the ribbon through hole, so that the consistency and the position accuracy of the head of the plastic ribbon conveyed in place each time can be ensured, and the problem of errors in perforation of the ribbon due to poor consistency and position accuracy of the head of the plastic ribbon conveyed in place is solved; the tail part of the plastic ribbon moves around the inner walls of the rotating guide claw and the fixed guide claw, and the plastic ribbon is curled into a ring shape;

then, the slide seat reciprocating mechanism drives the slide seat to continuously drive the push rod and the output end of the rack continuous feeding guide groove to move, so that the rack is meshed with the driving gear, and the driving gear drives the upper end of the rotating guide claw to downwards rotate towards the output end direction of the feeding guide groove, so that the tail part of the plastic binding belt passes through a clamping hole at the head part of the plastic binding belt and a binding belt through hole from top to bottom, and the binding belt punching step is rapidly completed; therefore, the rotary guide claw is not required to be driven to rotate by an additional driving motor, and a sensor is also required to detect whether the head of the plastic binding belt is conveyed in place or not, so that the equipment cost can be reduced, the volume and the weight of equipment are reduced, more importantly, the problem that the rotary guide claw is required to be driven to rotate by the driving motor in the binding machine which drives the rotary guide claw to rotate in the prior art, the rotary guide claw is required to be driven to rotate within a specified interval time by the driving motor, and the perforating efficiency of the binding belt is influenced if the interval time is too long in the prior art can be solved; the short interval time is easy to cause the problem that the drive motor drives the rotary guide claw to rotate before the head of the plastic binding belt is conveyed to a specified position, so that the binding belt is punched wrongly.

On the other hand, the shell of the ribbon perforating device of the wire harness binding machine is a handheld shell which is convenient to carry. Therefore wiring harness bundling machine's of this scheme ribbon perforating device convenient to carry can accomplish the ribbon step of punching rapidly, and the ribbon is punched efficiently, and the ribbon punching error rate is low.

Preferably, a slide limiting block is arranged on the guide rail, when the slide supports against the slide limiting block, the connecting piece supports against the first end of the strip-shaped through opening, and the rack and the driving gear are in a meshed state.

Preferably, a first arc-shaped guide groove is formed in one side face, facing the rotating guide claw, of the fixed guide claw, and the lower end of the first arc-shaped guide groove is located above the cable tie passing opening.

Preferably, a second arc-shaped guide groove is formed in one side surface of the rotary guide claw facing the fixed guide claw.

Preferably, the lower end of the fixed arc-shaped guide groove extends into the feeding guide groove, and a space for the binding belt to pass through is formed between the lower end of the fixed arc-shaped guide groove and the bottom surface of the feeding guide groove.

Preferably, the slide base reciprocating mechanism comprises a screw rod nut mechanism and a feeding motor, a screw rod of the screw rod nut mechanism is rotatably arranged on the handheld shell, the screw rod is parallel to the guide rail, the feeding motor is used for driving the screw rod to rotate, and a nut of the screw rod nut mechanism is connected with the slide base.

Preferably, a guide claw limiting block is arranged on the handheld shell, the guide claw limiting block and the fixed guide claw are located on two opposite sides of the rotary guide claw, and the guide claw limiting block is located on the outer side of the rotary guide claw and used for limiting the rotation angle of the rotary guide claw.

Preferably, the feed channel is provided on the top face of the hand-held housing.

Preferably, the hand-held housing is provided with a grip.

The invention has the beneficial effects that: convenient to carry can accomplish the ribbon fast and perforate the step, and the ribbon is perforated efficiently, and the ribbon is perforated the error rate and is low.

Drawings

Fig. 1 is a schematic view showing a structure of a band piercing means of a wire harness binding machine of the present invention.

Fig. 2 is a partial view taken along direction a in fig. 1.

Fig. 3 is a partial enlarged view of B in fig. 1.

In the figure:

a hand-held housing 1, a grip 1.1;

the device comprises a feeding guide groove 2.1, a material pushing block 2.2, a guide rail 2.3, a sliding seat 2.4, a sliding seat reciprocating mechanism 2.5, a ribbon passing opening 2.6, a strip passing opening 2.7, a push rod 2.8, a rack 2.9, a driving gear 2.10, a sliding seat limiting block 2.11, a push rod limiting block 2.12, a connecting sleeve 2.13 and a compression spring 2.14;

fixed guide claw 3.1 rotates guide claw 3.2, axostylus axostyle 3.3, first arc guide slot 3.4, second arc guide slot 3.5, direction claw stopper 3.6.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention are clearly explained and illustrated below with reference to the accompanying drawings, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present scheme, and are not construed as limiting the scheme of the present invention.

These and other aspects of embodiments of the invention will be apparent with reference to the following description and attached drawings. In the description and drawings, particular embodiments of the invention have been disclosed in detail as being indicative of some of the ways in which the principles of the embodiments of the invention may be practiced, but it is understood that the scope of the embodiments of the invention is not limited thereby. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., and "several" means one or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows: as shown in fig. 1, 2 and 3, the band perforating device of the wire harness binding machine comprises a handheld shell 1, a band winding guide device, a feeding guide groove 2.1 with an upward opening, which is arranged on the handheld shell, a pushing block 2.2 which slides along the feeding guide groove, a guide rail 2.3 which is positioned below the feeding guide groove and is parallel to the feeding guide groove, a sliding seat 2.4 which slides along the guide rail, a sliding seat reciprocating mechanism 2.5 which is used for driving the sliding seat to slide along the guide rail, and a pushing rod 2.8 which is fixed on the sliding seat. In this embodiment, the hand-held housing is provided with a grip 1.1.

The bottom surface of the feeding guide groove is provided with a ribbon through opening 2.6 and a strip-shaped through opening 2.7 extending along the length direction of the feeding guide groove. One end of the feeding guide groove is an output end. The ribbon through opening is positioned at the output end of the feeding guide groove. The first end of the strip-shaped through opening is close to the ribbon through opening. The width of the feeding guide groove is slightly larger than that of the head of the binding tape. The width of the strip-shaped opening is less than half of the width of the feeding guide groove, and in the embodiment, the width of the strip-shaped opening is 1/4 of the width of the feeding guide groove. In this embodiment, the feeding guide groove is disposed on the top surface of the handheld housing.

The band winding guide device comprises a fixed guide claw 3.1 and a rotary guide claw 3.2 which are arc-shaped. The fixed guide claw is fixed on the handheld shell and located above the output end of the feeding guide groove, the lower end of the fixed guide claw is close to the output end of the feeding guide groove, and the upper end of the fixed guide claw extends upwards in an inclined mode towards the front of the output end of the feeding guide groove. A first arc-shaped guide groove 3.4 is arranged on one side surface of the fixed guide claw facing the rotating guide claw, and the lower end of the first arc-shaped guide groove is positioned above the ribbon passing opening. The rotation guide claw is rotatably arranged on the handheld shell through a shaft lever 3.3 and is positioned on the front side of the output end of the feeding guide groove. A second arc-shaped guide groove 3.5 is arranged on one side surface of the rotary guide claw facing the fixed guide claw.

The push rod is parallel to the guide rail, and the push rod and the output end of the feeding guide groove are positioned on the same side of the sliding seat. The push rod is provided with a push rod limiting block 2.12. The push rod is also sleeved with a connecting sleeve 2.13 and a compression spring 2.14. The push rod limiting block and the sliding seat are positioned on two opposite sides of the connecting sleeve. One end of the compression spring is propped against the connecting sleeve, the other end of the compression spring is propped against the sliding seat, and the connecting sleeve is propped against the push rod limiting block under the action of the compression spring. The shaft lever is provided with a driving gear 2.10. The push rod is provided with a rack 2.9 which is used for being matched with the driving gear. The rack is parallel to the push rod, and the rack and the connecting sleeve are positioned on two opposite sides of the push rod limiting block. The material pushing block is connected with the connecting sleeve through a connecting piece, and the connecting piece penetrates through the strip-shaped through opening.

The slide seat reciprocating mechanism 2.5 comprises a screw rod nut mechanism and a feeding motor, a screw rod of the screw rod nut mechanism is rotationally arranged on the handheld shell, and the screw rod is parallel to the guide rail; the feeding motor is used for driving the screw rod to rotate, and the nut of the screw rod nut mechanism is connected with the sliding seat.

In the process that the sliding seat moves towards the output end of the feeding guide groove along the guide rail, the sliding seat drives the material pushing block to move synchronously along the feeding guide groove through the push rod, the compression spring, the connecting sleeve and the connecting piece, when the connecting piece abuts against the first end of the strip-shaped through opening, the material pushing block stops moving, the material pushing block is close to or above the strip-shaped through opening at the moment, the rack and the driving gear are in a separated state, then, the sliding seat continues to drive the push rod and the rack to continue to move towards the output end of the feeding guide groove, so that the rack is meshed with the driving gear, and the upper end of the rotating guide claw is driven by the driving gear to rotate downwards towards the output end direction of the feeding guide groove.

The concrete work of the ribbon perforating device of the wire harness binding machine is as follows:

the slide base reciprocating mechanism drives the slide base to move to the output end of the feeding guide groove along the guide rail, and in the process, the slide base drives the material pushing block to synchronously move along the feeding guide groove through the push rod, the compression spring, the connecting sleeve and the connecting piece, so that a plastic ribbon in the feeding guide groove (the head of the plastic ribbon is propped against the material pushing block) is pushed to the output end of the feeding guide groove through the material pushing block; until the connecting piece abuts against the first end of the strip-shaped through hole, the pushing block stops moving, and the head of the plastic ribbon is located above the ribbon through hole, so that the consistency and the position accuracy of the head of the plastic ribbon conveyed in place each time can be ensured, and the problem of errors in perforation of the ribbon due to poor consistency and position accuracy of the head of the plastic ribbon conveyed in place is solved; the tail part of the plastic ribbon moves around the inner walls of the rotating guide claw and the fixed guide claw, and the plastic ribbon is curled into a ring shape;

then, the slide seat reciprocating mechanism drives the slide seat to continuously drive the push rod and the output end of the rack continuous feeding guide groove to move, so that the rack is meshed with the driving gear, and the driving gear drives the upper end of the rotating guide claw to downwards rotate towards the output end direction of the feeding guide groove, so that the tail part of the plastic binding belt passes through a clamping hole at the head part of the plastic binding belt and a binding belt through hole from top to bottom, and the binding belt punching step is rapidly completed; therefore, the rotary guide claw is not required to be driven to rotate by an additional driving motor, and a sensor is also required to detect whether the head of the plastic binding belt is conveyed in place or not, so that the equipment cost can be reduced, the volume and the weight of equipment are reduced, more importantly, the problem that the rotary guide claw is required to be driven to rotate by the driving motor in the binding machine which drives the rotary guide claw to rotate in the prior art, the rotary guide claw is required to be driven to rotate within a specified interval time by the driving motor, and the perforating efficiency of the binding belt is influenced if the interval time is too long in the prior art can be solved; the short interval time is easy to cause the problem that the drive motor drives the rotary guide claw to rotate before the head of the plastic binding belt is conveyed to a specified position, so that the binding belt is punched wrongly.

Then, the sliding seat is driven to move back along the guide rail through the sliding seat reciprocating mechanism to reset, in the process, the rack drives the rotating guide claw to rotate through the driving gear to reset, then the rack is separated from the driving gear and reset, and the material pushing block moves back along the feeding guide groove to reset.

On the other hand, the shell of the ribbon perforating device of the wire harness binding machine is a handheld shell which is convenient to carry. Therefore wiring harness bundling machine's of this scheme ribbon perforating device convenient to carry can accomplish the ribbon step of punching rapidly, and the ribbon is punched efficiently, and the ribbon punching error rate is low.

Further, as shown in fig. 1, a slide seat limiting block 2.11 is arranged on the guide rail, and the slide seat limiting block is close to the output end of the feeding guide groove. When the slide supports against the slide limiting block, the connecting piece supports against the first end of the strip-shaped through opening, and the rack and the driving gear are in a meshed state. The distance of the slide seat moving towards the direction of the output end of the feeding guide groove is limited by the slide seat limiting block.

Furthermore, the lower end of the fixed arc-shaped guide groove extends into the feeding guide groove, and a space for the binding belt to pass through is formed between the lower end of the fixed arc-shaped guide groove and the bottom surface of the feeding guide groove.

Further, as shown in fig. 1, a guide claw limiting block 3.6 is arranged on the handheld shell, the guide claw limiting block and the fixed guide claw are located on two opposite sides of the rotary guide claw, and the guide claw limiting block is located on the outer side of the rotary guide claw and used for limiting the rotation angle of the rotary guide claw. In this embodiment, still be equipped with the torsional spring on the axostylus axostyle, rotate the direction claw under the effect of torsional spring, toward direction claw stopper direction rotation and support on the direction claw stopper.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, alterations and equivalents of the above embodiments according to the technical spirit of the present invention are still within the protection scope of the technical solution of the present invention.

Claims (7)

1. A ribbon perforating device of a wire harness binding machine is characterized by comprising a handheld shell, a ribbon winding guide device, a feeding guide groove, a material pushing block, a guide rail, a sliding seat reciprocating moving mechanism and a push rod, wherein the feeding guide groove is arranged on the handheld shell, the opening of the feeding guide groove faces upwards, the material pushing block slides along the feeding guide groove, the guide rail is positioned below the feeding guide groove and is parallel to the feeding guide groove, the sliding seat slides along the guide rail, the sliding seat reciprocating moving mechanism is used for driving the sliding seat to slide along the guide rail, the push rod is fixed on the sliding seat, a ribbon passing hole and a strip passing hole extending along the length direction of the feeding guide groove are formed in the bottom surface of the feeding guide groove, the ribbon passing hole is positioned at the output end of the feeding guide groove, and the first end of the strip passing hole is close to the ribbon passing hole,

the ribbon winding guide device comprises an arc-shaped fixed guide claw and a rotary guide claw, the fixed guide claw is fixed on the handheld shell and is positioned above the output end of the feeding guide groove, the lower end of the fixed guide claw is close to the output end of the feeding guide groove, the rotary guide claw is rotatably arranged on the handheld shell through a shaft lever, and the rotary guide claw is positioned on the front side of the output end of the feeding guide groove;

the push rod is parallel to the guide rail, the output ends of the push rod and the feeding guide groove are positioned on the same side of the sliding seat, a push rod limiting block is arranged on the push rod, a connecting sleeve and a compression spring are further sleeved on the push rod, the push rod limiting block and the sliding seat are positioned on two opposite sides of the connecting sleeve, one end of the compression spring abuts against the connecting sleeve, the other end of the compression spring abuts against the sliding seat, the connecting sleeve abuts against the push rod limiting block under the action of the compression spring, a driving gear is arranged on the shaft rod, a rack matched with the driving gear is arranged on the push rod, the rack is parallel to the push rod, the rack and the connecting sleeve are positioned on two opposite sides of the push rod limiting block, the push rod and the connecting sleeve are connected through a connecting piece, and the connecting piece penetrates through a strip-shaped through hole,

in the process that the sliding seat moves towards the output end of the feeding guide groove along the guide rail, the sliding seat drives the material pushing block to move synchronously along the feeding guide groove through the push rod, the compression spring, the connecting sleeve and the connecting piece, when the connecting piece abuts against the first end of the strip-shaped through opening, the material pushing block stops moving, the material pushing block is close to or above the strip-shaped through opening at the moment, the rack and the driving gear are in a separated state, then, the sliding seat continues to drive the push rod and the rack to continue to move towards the output end of the feeding guide groove, so that the rack is meshed with the driving gear, and the upper end of the rotating guide claw is driven by the driving gear to rotate downwards towards the output end direction of the feeding guide groove.

2. The band piercing device of a wire harness binding machine according to claim 1, wherein a first arc-shaped guide groove is provided on a side surface of the fixed guide claw facing the rotary guide claw, and a lower end of the first arc-shaped guide groove is positioned above the band passing opening.

3. The band piercing device of a wire harness binding machine according to claim 1, wherein a second arc-shaped guide groove is provided on a side of the rotary guide jaw facing the fixed guide jaw.

4. The band piercing device of a wire harness binding machine according to claim 2, wherein a lower end of the first arc-shaped guide groove is extended into the feeding guide groove, and a space for the band to pass through is provided between the lower end of the first arc-shaped guide groove and a bottom surface of the feeding guide groove.

5. The cable tie perforating device of the wire harness binding machine according to claim 1, wherein the slide reciprocating mechanism includes a lead screw and nut mechanism and a feeding motor, a lead screw of the lead screw and nut mechanism is rotatably disposed on the hand-held housing, the lead screw is parallel to the guide rail, the feeding motor is used for driving the lead screw to rotate, and a nut of the lead screw and nut mechanism is connected with the slide.

6. The strap punching device of a wire harness binding machine according to claim 1, wherein a guide claw stopper is provided on the hand-held housing, the guide claw stopper and the fixed guide claw are located at opposite sides of the rotary guide claw, and the guide claw stopper is located at an outer side of the rotary guide claw for restricting a rotation angle of the rotary guide claw.

7. The strap perforating device of the wire harness binding machine according to claim 1, wherein a grip handle is provided on the hand-held housing.

Images