CN209389591U - Harness rotary cutting mechanism - Google Patents

Abstract

The utility model proposes a kind of harness rotary cutting mechanisms, including tangent line component, further include the driving of advance and retreat knife and rotation driving, tangent line component includes rotary-cut block, rotary-cut block is equipped with the peeling knife of sliding, the sliding of advance and retreat knife drive control peeling knife, rotation drive control rotary-cut block rotation.The advantages of the utility model: substituting artificial rotary-cut by automatic mechanism, saves human cost, and peeling knife accurate positioning does not damage inner core, and motor driven realizes peeling knife rotation and advance and retreat knife, and rotary-cut is fast, high-efficient, is suitable for full-automatic rotary-cut well.

Description

Harness rotary cutting mechanism

Technical field

The utility model relates to wiring harness processing devices, particularly relate to a kind of harness rotary cutting mechanism.

Background technique

The diversity of automobile causes main engine plants to the diversity of wire rod demand, needs manually to be set with offline equipment, stripping head The equipment such as standby, transfer streamline complete the tangent line of wire rod, peeling work jointly, and the turnaround time is long, production efficiency is low, consistency Difference etc. has been unable to meet middle and high end client production requirement.Nowadays automobile sales volume continues to increase every year, human cost persistently rises, Manual work cannot well adapt to current harness manufacture processing, lack a kind of full-automatic tangent line peeling equipment.And harness The procedure that rotary-cut is processed as harness, equally urgently a kind of harness rotary cutting mechanism suitable for full-automatic tangent line peeling is ground It issues.

Utility model content

The utility model proposes a kind of harness rotary cutting mechanism, solves and lack one kind in the prior art suitable for Full-automatic cutting The problem of harness rotary cutting mechanism of line peeling.

The technical solution of the utility model is achieved in that a kind of harness rotary cutting mechanism, including tangent line component, further includes The driving of advance and retreat knife and rotation driving, tangent line component include rotary-cut block, and rotary-cut block is equipped with the peeling knife of sliding, the driving control of advance and retreat knife Peeling knife sliding processed, rotation drive control rotary-cut block rotation.

The peeling knife is located on fixed plate second III, and fixed plate second III is located at rotary-cut block by line rail first III sliding On, fixed plate second III is connect with linking arm III, and linking arm III is located on the inclined-plane of spill spin block by line rail first III sliding, is revolved Sliding limit cooperation between switch block and rotary-cut block, spill spin block and card set the cooperation of part rotary stopper, and card sets part and the driving of advance and retreat knife connects It connects.

The rotary-cut block is equipped with guide post III, and spill spin block is equipped with guide sleeve III, and guide sleeve III sliding sleeve is in guide post III On.

It includes fixed plate first III and axle sleeve III that the card, which sets part, and fixed plate first III is connect with axle sleeve III, fixed plate First III and axle sleeve III card set spill spin block, and fixed plate first III and axle sleeve III are equipped with the bearing first III being located in spill spin block, Fixed plate first III and advance and retreat knife are drivingly connected.

The rotation is driven across card and sets part.

The advance and retreat knife driving includes sliding seat III, pedestal III and slide drive III, and sliding seat III sliding is set On pedestal III, slide drive III drives sliding seat III, sliding seat III to control peeling knife sliding.

The sliding seat III includes support plate the third III and slide plate III, and the third III of support plate is connect with slide plate III, support The third III of plate controls peeling knife sliding, is slidably matched between slide plate III and pedestal III.

Reinforcing rib second III, the third III of support plate and reinforcing rib second are equipped between support plate third III and slide plate III Reinforcing rib first III is equipped between III.

The pedestal III is equipped with supporting block first III, and supporting block first III is sliding by line rail second III and sliding seat III Dynamic cooperation.

The pedestal III includes third III of fixed plate on top and the supporting block second III of lower part, the third III of fixed plate and branch The III connection of bracer second.

The sliding seat III is equipped with fixed block III, and pedestal III is equipped with screw rodb base first and screw rodb base second, screw rod III is actively installed in screw rodb base first and screw rodb base second, and screw rod III is threadedly engaged with fixed block III, slide drive III driving Screw rod III.

The slide drive III includes motor second III and motor plate second III, and motor second III is located at motor plate second On III, motor plate second III is connect with support plate fourth III, and support plate fourth III is connect with pedestal III.

The rotation driving includes rotary shaft III, rotating seat III, duct and rotating driver III, rotary shaft III is actively installed on rotating seat III, and duct is located in rotary shaft III, and rotating driver III drives rotary shaft III, rotation Shaft III is connect with rotary-cut block.

The rotary shaft III is equipped with synchronizing wheel second III, and synchronizing wheel second III passes through synchronous belt III and synchronizing wheel first III connection, rotating driver III drive synchronizing wheel first III.

The rotating driver III includes motor first III, and motor first III is located on motor plate first III, motor plate first III is located on rotating seat III, and motor first III drives rotary shaft III.

The rotating seat III includes support plate first III and support plate second III, rotary shaft III living by bearing second III Dynamic to be located on support plate first III, rotary shaft III is actively installed on support plate second III by the third III of bearing.

The duct includes vessel clamp III, sheathed catheter first III, conduit III and sheathed catheter second III, vessel clamp III is located in rotary shaft III by screw clamping conduit III, conduit III by sheathed catheter first III, sheathed catheter second III.

The advantages of the utility model: substituting artificial rotary-cut by automatic mechanism, saves human cost, and peeling knife positioning is quasi- Really, inner core is not damaged, motor driven realizes peeling knife rotation and advance and retreat knife, and rotary-cut is fast, high-efficient, is suitable for well full-automatic Rotary-cut.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the utility model structure chart.

Fig. 2 is the utility model tangent line assembly assumption diagram.

Fig. 3 is the utility model tangent line component explosive view.

Fig. 4 is the utility model tangent line driving assembly structure chart.

Fig. 5 is the utility model rotation driving explosive view.

Fig. 6 is that the utility model advance and retreat knife drives explosive view.

In figure: 31- tangent line component, 3101- spill spin block, 3102- fixed plate first III, 3103- bearing first III, 3104- axis Set III, 3105- guide sleeve III, 3106- guide post III, 3107- rotary-cut block, 3108- peeling knife, 3109- fixed plate second III, 3110- line rail first III, 3111- linking arm III, 3112- nut first III；The driving of 32- advance and retreat knife, 33- rotation driving, 3201- Rotary shaft III, 3202- bearing second III, 3203- support plate first III, 3204- support plate second III, 3205- the third III of bearing, 3206- vessel clamp III, 3207- sheathed catheter first III, 3208- conduit III, 3209- sheathed catheter second III, 3210- synchronizing wheel first III, 3211- synchronizing wheel second III, 3212- synchronous belt III, 3213- motor plate first III, 3214- motor first III, 3215- support Plate the third III, 3216- reinforcing rib first III, 3217- reinforcing rib second III, 3218- slide plate III, 3219- line rail second III, 3220- branch Bracer first III, 3221- lead screw base first, 3222- fixed block III, 3223- lead screw base second, 3224- lead screw III, 3225- shaft coupling III, 3226- support plate fourth III, 3227- motor plate second III, 3228- motor second IIIIII, 3229- nut second III, 3230- Fixed plate the third III, 3231- supporting block second III.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are under that premise of not paying creative labor Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figures 1 to 6, a kind of harness rotary cutting mechanism, including tangent line component 31, advance and retreat knife driving 32 and rotation driving 33。

Tangent line component 31 includes spill spin block 3101, rotary-cut block 3107 and peeling knife 3108, and peeling knife 3108 is located at fixed plate On second III3109, fixed plate second III3109 is located on rotary-cut block 3107 by line rail first III3110 sliding, fixed plate second III3109 is connect with linking arm III3111, and linking arm III3111 is located at spill spin block 3101 by line rail first III3110 sliding On inclined-plane, spill spin block 3101 to rotary-cut block 3107 close to when, linking arm III3111 is flared out by the effect of line rail first III, band Dynamic peeling knife 3108 realizes withdrawing, opposite, spill spin block 3101 to rotary-cut block 3107 far from when, linking arm III3111 is by line rail The effect of first III inwardly bounces back, and peeling knife 3108 is driven to realize feed.

Rotary-cut block 3107 is equipped with guide post III3106, and spill spin block 3101 is equipped with guide sleeve III3105, and guide sleeve III3105 is sliding It is dynamic to cover on guide post III3106, to realize being slidably matched between spill spin block 3101 and rotary-cut block 3107, while spill spin block 3101 are able to drive 3107 synchronous rotary of rotary-cut block.

Fixed plate first III3102 is connect with axle sleeve III3104, and fixed plate first III3102 is set with axle sleeve III3104 card to be revolved Switch block 3101, fixed plate first III3102 and axle sleeve III3104 are equipped with the bearing first III3103 being located in spill spin block 3101, Gu Fixed board first III3102 is connect with the third III3215 of support plate, fixed plate first III3102 and axle sleeve III3104 to spill spin block 3101 into Row limiting card is set, while bearing first III3103 being mounted in spill spin block 3101, and bearing first III3103 realizes fixed plate first Rotatable engagement between III3102, axle sleeve III3104 and spill spin block 3101, the third III3215 of support plate are able to drive spill spin block 3101 It slides back and forth, without influencing its rotation.

Advance and retreat knife driving 32 includes sliding seat III, pedestal III and slide drive III, and sliding seat III includes support plate Third III3215 and slide plate III3218, the third III3215 of support plate are connect with slide plate III3218, the third III3215 of support plate and fixation The III3102 connection of plate first is equipped with reinforcing rib second III3217, support plate third between support plate the third III3215 and slide plate III3218 Reinforcing rib first III3216 is equipped between III3215 and reinforcing rib second III3217, pedestal III includes the fixed plate third on top The supporting block second III3231 of III3230 and lower part, the third III3230 of fixed plate are connect with supporting block second III3231, supporting block second III3231 is arranged on the rack.

The third III3230 of fixed plate is equipped with supporting block first III3220, and supporting block first III3220 passes through line rail second III3219 It is slidably matched with slide plate III3218, to realize sliding of the slide plate III3218 on the third III3230 of fixed plate.

Slide plate III3218 is equipped with fixed block III3222, and the third III3230 of fixed plate is equipped with screw rodb base first 3221 and silk Pole socket second 3223, screw rod III3224 are actively installed in screw rodb base first 3221 and screw rodb base second 3223, screw rod III3224 and fixation Block III3222 is threadedly engaged, thus the sliding being changed into before and after slide plate III3218 that screw rod III3224 is positive and negative.

Slide drive III includes motor second III3228 and motor plate second III3227, and motor second III3228 is located at motor On plate second III3227, motor plate second III3227 is connect with support plate fourth III3226, support plate fourth III3226 and fixed plate third III3230 connection, motor second III3228 are sliding by shaft coupling III3225 connection wire rod III3224, motor second III3228 Power source drives screw rod III3224 rotation, and then is changed into the sliding before and after slide plate III3218, and the third III3215 of support plate is logical Fixed plate first III3102 is crossed to slide back and forth with spill spin block 3101.

Rotation driving 33 includes rotary shaft III3201, rotating seat III, duct and rotating driver III, rotating seat III includes that support plate first III3203 and support plate second III3204, support plate first III3203 and support plate second III3204 are located at On the third III3230 of fixed plate, support plate first III3203 is connect with support plate second III3204, and rotary shaft III3201 passes through bearing Second III3202 is actively installed on support plate first III3203, and rotary shaft III3201 is actively installed on support by the third III3205 of bearing On plate second III3204, and paid on support plate first III3203 and support plate second III3204 by nut second III3229 lock, The front end of rotary shaft III3201 passes through spill spin block 3101 and rotary-cut block 3107, and the front end of rotary shaft III3201 passes through nut first III3112 is connect with rotary-cut block 3107, and support plate first III3203 and support plate second III3204 provide peace for rotary shaft III3201 Dress basis, realizes rotating freely for rotary shaft III3201.

Rotating driver III includes motor first III3214, and motor first III3214 is located on motor plate first III3214, electricity Machine plate first III3214 is located on support plate second III3204, and the output shaft of motor first III3214 is equipped with synchronizing wheel first III3210, rotary shaft III3201 be equipped with synchronizing wheel second III3211, synchronizing wheel second III3211 by synchronous belt III3212 with The III3210 connection of synchronizing wheel first, motor first III3214 are the power source of rotation, and synchronous pulley drives rotary shaft III3201 to realize Rotation.

Duct includes vessel clamp III3206, sheathed catheter first III3207, conduit III3208 and sheathed catheter second III3209, vessel clamp III3206 are located at the input end of rotary shaft III3201, and pass through screw clamping conduit III3208, conduit III3208 is located in rotary shaft III3201 by sheathed catheter first III3207, sheathed catheter second III3209.

When rotary-cut, wire rod enters in conduit III3208, and the advance and retreat knife of peeling knife 3108 is realized in motor second III3228 starting Function, motor first III3214 starting, realizes the rotation function of rotary shaft III3201, so that the shielded layer to wire rod revolves It cuts.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (10)

1. a kind of harness rotary cutting mechanism, including tangent line component (31), it is characterised in that: further include advance and retreat knife driving (32) and rotation It driving (33), tangent line component (31) includes rotary-cut block (3107), and rotary-cut block (3107) is equipped with the peeling knife (3108) of sliding, into Withdrawing drives (32) control peeling knife (3108) sliding, rotation driving (33) control rotary-cut block (3107) rotation.

2. harness rotary cutting mechanism according to claim 1, it is characterised in that: the peeling knife (3108) is located at fixed plate Second III(3109) on, fixed plate second III(3109) it is located on rotary-cut block (3107) by line rail first III(3110) sliding, it is fixed Plate second III(3109) connect with linking arm III(3111), linking arm III(3111) be located at by line rail first III(3110) sliding On the inclined-plane of spill spin block (3101), sliding limit cooperation, spill spin block (3101) between spill spin block (3101) and rotary-cut block (3107) The cooperation of part rotary stopper is set with card, card sets part and connect with advance and retreat knife driving (32).

3. harness rotary cutting mechanism according to claim 2, it is characterised in that: the rotary-cut block (3107) is equipped with guide post III(3106), spill spin block (3101) is equipped with guide sleeve III(3105), guide sleeve III(3105) sliding sleeve is in guide post III(3106) On.

4. harness rotary cutting mechanism according to claim 2, it is characterised in that: it includes fixed plate first III that the card, which sets part, (3102) and axle sleeve III(3104), fixed plate first III(3102) connect with axle sleeve III(3104), fixed plate first III(3102) Spill spin block (3101), fixed plate first III(3102 are set with axle sleeve III(3104) card) and axle sleeve III(3104) equipped with being located at Bearing first III(3103 in spill spin block (3101)), fixed plate first III(3102) it is connect with advance and retreat knife driving (32).

5. harness rotary cutting mechanism according to claim 1, it is characterised in that: the advance and retreat knife driving (32) includes sliding Seat III, pedestal III and slide drive III, sliding seat III sliding are located on pedestal III, slide drive III driving sliding Seat III, sliding seat III control peeling knife (3108) sliding.

6. harness rotary cutting mechanism according to claim 5, it is characterised in that: the pedestal III is equipped with supporting block first III(3220), supporting block first III(3220) pass through line rail second III(3219) be slidably matched with sliding seat III.

7. harness rotary cutting mechanism according to claim 5, it is characterised in that: the sliding seat III is equipped with fixed block III(3222), pedestal III is equipped with screw rodb base first (3221) and screw rodb base second (3223), screw rod III(3224) it is actively installed on silk In pole socket first (3221) and screw rodb base second (3223), screw rod III(3224) it is threadedly engaged with fixed block III(3222), sliding is driven Dynamic device III drives screw rod III(3224).

8. harness rotary cutting mechanism according to claim 1, it is characterised in that: the rotation driving (33) includes rotary shaft III(3201), rotating seat III, duct and rotating driver III, rotary shaft III(3201) it is actively installed on rotating seat III On, duct is located at rotary shaft III(3201) in, rotating driver III drives rotary shaft III(3201), rotary shaft III (3201) it is connect with rotary-cut block (3107).

9. harness rotary cutting mechanism according to claim 8, it is characterised in that: the rotary shaft III(3201) it is equipped with Synchronizing wheel second III(3211), synchronizing wheel second III(3211) pass through synchronous belt III(3212) connect with synchronizing wheel first III(3210) It connects, rotating driver III drives synchronizing wheel first III(3210).

10. harness rotary cutting mechanism according to claim 8, it is characterised in that: the duct includes vessel clamp III (3206), sheathed catheter first III(3207), conduit III(3208) and sheathed catheter second III(3209), vessel clamp III(3206) pass through Screw clamping conduit III(3208), conduit III(3208) pass through sheathed catheter first III(3207), sheathed catheter second III(3209) set In rotary shaft III(3201).