CN208303568U - bending machine - Google Patents

Abstract

The utility model provides a kind of bending machine, comprising: the first beaming roller；Second beaming roller, the second beaming roller and the first beaming roller interval are arranged；Support component, support component are used to support the workpiece to bending, and the first beaming roller and the second beaming roller are arranged at the top of support component；Location structure, location structure are connected with support component, and location structure is for detecting whether workpiece is transported to predeterminated position；Wherein, support component is arranged at least partly turnablely, so that workpiece is under the action of support component and the first beaming roller or bending under the action of support component and second beaming roller.The bending machine of the utility model solves the problems, such as that bending machine in the prior art is complex when carrying out double-bending.

Description

Bending machine

Technical field

The utility model relates to bending machine fields, in particular to a kind of bending machine.

Background technique

Bending machine in the prior art is uniaxial roller, for the evaporator and condenser of air conditioner, will be steamed if necessary Hair device or condenser bending go out two bending sections, then after bending wherein one section, by moving evaporation device or condenser, then move Move and determine that position carries out second segment bending again, whole process not only time-consuming but also bending precision also it is difficult to ensure that.

Utility model content

The main purpose of the utility model is to provide a kind of bending machines, are being carried out with solving bending machine in the prior art Complex problem when double-bending.

To achieve the goals above, the utility model provides a kind of bending machine, comprising: the first beaming roller；Second beaming roller, the Two beaming rollers and the first beaming roller interval are arranged；Support component, support component are used to support the workpiece to bending, the first beaming roller and second Beaming roller is arranged at the top of support component；Location structure, location structure are connected with support component, and location structure is for detecting Whether workpiece is transported to predeterminated position；Wherein, support component is arranged at least partly turnablely, so that workpiece is in support component With under the action of the first beaming roller or bending under the action of support component and the second beaming roller.

Further, location structure includes: location structure ontology, and test section, test section are provided on location structure ontology For detecting whether workpiece reaches predeterminated position；Wherein, when test section is in contact with the side plate of workpiece, workpiece reaches default position It sets.

Further, test section is electric conductor, and side plate is electric conductor, when test section is in contact with side plate, test section with Side plate is electrically connected, and workpiece reaches predeterminated position, and for test section to control module feedback signal, control module controls bending machine starting.

Further, location structure ontology includes: interconnecting piece, and interconnecting piece is connected with support component, test section with connect Portion is connected, so that test section is connected by interconnecting piece with support component.

Further, sliding slot is provided in support component, interconnecting piece position is adjustably disposed in sliding slot.

Further, interconnecting piece is prepared by insulating materials.

Further, support component includes: the first support component, and the first support component is at least partially disposed in first axle To support workpiece, the first support component is movably set at least partially along the direction close to or far from the first beaming roller for the lower section of roller It sets, to clamp or discharge first of the workpiece between the first support component and the first beaming roller to bending part；Wherein, first Support component can be rotatably set around first rotation, to be clamped in the first support component and the to bending part in the first of workpiece When between one beaming roller, make first to bending part bending under the action of the first support component.

Further, the first support component includes: the first support frame, and the first beaming roller is arranged on the first support frame；First Support plate, the first support plate are movably disposed on the first support frame, to clamp or discharge positioned at the first support plate and first Between beaming roller first to bending part；First driving portion, the first driving portion and the first support plate are drivingly connected, with driving first Fagging moves on the first support frame along the direction close to or far from the first beaming roller；Wherein, the first support frame is around the first rotary shaft Line can be rotatably set, when bending part is clamped between the first support plate and the first beaming roller, to make first first wait bend Portion's bending under the action of the first support plate.

Further, support component further include: the second support component, the second support component are set with the first support component interval It sets, the lower section for being at least partially disposed in the second beaming roller of the second support component is to support workpiece, at least portion of the second support component Divide and be movably disposed along the direction close to or far from the second beaming roller, to clamp or discharge positioned at the second support component and the second axis Second of workpiece between roller is to bending part；Wherein, the second support component can be rotatably set around the second rotation axis, in work The second of part when bending part is clamped between the second support component and the second beaming roller, make second to bending part in the second support group Bending under the action of part.

Further, the second support component includes: the second support frame, and the second beaming roller is arranged on the second support frame；Second Support plate, the second support plate are movably disposed on the second support frame, to clamp or discharge positioned at the second support plate and second Between beaming roller second to bending part；Second driving portion, the second driving portion and the second support plate are drivingly connected, with driving second Fagging moves on the second support frame along the direction close to or far from the second beaming roller；Wherein, the second support frame is around the second rotary shaft Line can be rotatably set, when bending part is clamped between the second support plate and the second beaming roller, to make second second wait bend Portion's bending under the action of the second support plate.

Further, when workpiece is first when bending part is clamped between the first support component and the first beaming roller, second Support component is at least partly supported on workpiece, and the first support component is rotated around first rotation, so that first wait bend Portion's bending, wherein when the first support component is rotated around first rotation, workpiece is mobile relative to the second support component.

Further, support component further include: third support component, the setting of third support component in the first support component and Between second support component, third support component is at least partly movably disposed along the vertical direction, so that third support group Part has the Support Position being in contact with workpiece, or the disengaged position mutually separated with workpiece.

Further, when workpiece is second when bending part is clamped between the second support component and the second beaming roller, third Support component is at least partly supported on workpiece, and the second support component is rotated around the second rotation axis, so that second wait bend Portion's bending, wherein when the second support component is rotated around the second rotation axis, workpiece is mobile relative to third support component.

Further, it is provided with rack gear in the second support component, is arranged with gear on the second beaming roller, when the second support component When around the rotation of the second rotation axis, rack and pinion is meshed, and rack gear is rotated along the circumferential direction of gear, so that second wait bend Portion's bending.

Further, bending machine further include: yoke configurations, yoke configurations include: clip ontology, are provided on clip ontology First sliding part, the first sliding part with bearing shell for being connected；Yoke configurations are provided on first beaming roller, the setting of clip ontology exists On first beaming roller, the outer surface of the first beaming roller is arranged in by clip ontology for bearing shell, is arranged in first to bearing shell position-adjustable On sliding part, bearing shell is adjustably arranged by the first sliding part around the axial location of the first beaming roller, so that bearing shell and workpiece phase Contact or the first beaming roller are in contact with workpiece；And/or second be provided with yoke configurations on beaming roller, clip ontology is arranged second On beaming roller, the outer surface of the second beaming roller is arranged in by clip ontology for bearing shell, and the first sliding is arranged in bearing shell position-adjustable In portion, bearing shell is adjustably arranged by the first sliding part around the axial location of the second beaming roller, so that bearing shell is in contact with workpiece, Or second beaming roller be in contact with workpiece.

The bending machine of the utility model can be realized by the first beaming roller, the second beaming roller, support component and location structure The quick bending of workpiece.Wherein, the second beaming roller and the first beaming roller interval are arranged, and support component is used to support the workpiece to bending, First beaming roller and the second beaming roller are arranged at the top of support component, and location structure is connected with support component, and location structure is used Whether predeterminated position is transported in detection workpiece.In specific bending, workpiece is placed by accurate location by location structure, so Afterwards by at least partly overturning of support component, so as to so that workpiece bending under the action of support component and the first beaming roller, And bending under the action of support component and the second beaming roller.The bending machine of the utility model by the first beaming roller, the second beaming roller, Support component and location structure can be realized the quick double-bending of workpiece, and it is double in progress to solve bending machine in the prior art Complex problem when bending.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. In the accompanying drawings:

Fig. 1 shows the structural schematic diagram of the embodiment of bending machine according to the present utility model；

Fig. 2 shows the structural schematic diagrams of the first support component of bending machine according to the present utility model；

Fig. 3 shows the structural schematic diagram of the second support component of bending machine according to the present utility model；

Fig. 4 shows the partial structural diagram of bending machine according to the present utility model；

Fig. 5 shows the second beaming roller of bending machine according to the present utility model and the partial structurtes of the second support component are illustrated Figure；

Fig. 6 shows the location structure of bending machine according to the present utility model and the fit structure schematic diagram of workpiece；

Fig. 7 shows the location structure of bending machine according to the present utility model and the fit structure schematic diagram of support component；

Fig. 8 shows the structural schematic diagram of the location structure of supporting mechanism according to the present utility model；

Fig. 9 shows the schematic diagram of application structure of the clip ontology of bending machine according to the present utility model；

Figure 10 shows the yoke configurations of bending machine according to the present utility model and the attachment structure schematic diagram of bearing shell；

Figure 11 shows the bearing bush structure schematic diagram of bending machine according to the present utility model；

Figure 12 shows the structural schematic diagram of the yoke configurations of bending machine according to the present utility model.

Wherein, the above drawings include the following reference numerals:

20, clip ontology；21, the first sliding part；211, fastener hole；22, the first clip portion；23, the second clip portion；24, Perforating；25, locking hole；26, backstop slot；30, bearing shell；31, the second sliding part；40, the first fastener；

50, the first beaming roller；60, the second beaming roller；61, gear；70, support component；71, the first support component；711, first Support plate；712, the first driving portion；713, the first support frame；72, the second support component；721, the second support plate；722, second Driving portion；723, rack gear；724, the second support frame；73, third support component；74, sliding slot；80, workpiece；81, side plate；

90, location structure ontology；91, test section；911, wiring hole；92, interconnecting piece；921, location hole.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

It is noted that following detailed description is all illustrative, it is intended to provide further instruction to the application.Unless another It indicates, all technical and scientific terms used herein has usual with the application person of an ordinary skill in the technical field The identical meanings of understanding.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.

The utility model provides a kind of bending machine, please refers to Fig. 1 to Figure 12, and bending machine includes: the first beaming roller 50；Second Beaming roller 60, the second beaming roller 60 and the first beaming roller 50 interval are arranged；Support component 70, support component 70 are used to support the work to bending Part 80, the first beaming roller 50 and the second beaming roller 60 are arranged at the top of support component 70；Location structure, location structure and support group Part 70 is connected, and location structure is for detecting whether workpiece 80 is transported to predeterminated position；Wherein, support component 70 is at least partly It is arranged turnablely, so that workpiece 80 is under the action of support component 70 and the first beaming roller 50 or support component 70 and the second beaming roller Bending under the action of 60.

The bending machine of the utility model passes through the first beaming roller 50, the second beaming roller 60, support component 70 and location structure energy Enough realize the quick bending of workpiece.Wherein, the second beaming roller 60 and the first beaming roller 50 interval be arranged, support component 70 be used to support to The workpiece 80 of bending, the first beaming roller 50 and the second beaming roller 60 are arranged at the top of support component 70, location structure and support group Part 70 is connected, and location structure is for detecting whether workpiece 80 is transported to predeterminated position.In specific bending, pass through location structure Workpiece 80 is placed into accurate location, passes through at least partly overturning of support component 70, then so as to so that workpiece is supporting Bending under the action of component 70 and the first beaming roller 50, and bending under the action of support component 70 and the second beaming roller 60.This reality Workpiece can be realized by the first beaming roller 50, the second beaming roller 60, support component 70 and location structure with novel bending machine Quick double-bending solves the problems, such as that bending machine in the prior art is complex when carrying out double-bending.

In the present embodiment, bending machine can be realized workpiece by the first beaming roller 50, the second beaming roller 60 and support component 70 Quick bending.Wherein, the second beaming roller 60 and the first beaming roller 50 interval are arranged, and support component 70 is used to support the work to bending Part, the first beaming roller 50 and the second beaming roller 60 are arranged at the top of support component 70.In specific bending process, pass through support group At least partly overturning of part 70, so as to so that workpiece bending under the action of support component 70 and the first beaming roller 50, Yi Ji Bending under the action of support component 70 and the second beaming roller 60.

For the specific structure of location structure, as shown in Figure 6 to 8, location structure includes: location structure ontology 90, fixed Test section 91 is provided on bit architecture ontology 90, test section 91 is for detecting whether workpiece 80 reaches predeterminated position；Wherein, work as inspection When survey portion 91 is in contact with the side plate 81 of workpiece 80, workpiece 80 reaches predeterminated position.

It in the present embodiment, can by being provided with the location structure ontology 90 with test section 91 in support component 70 Realize the accurate positionin to workpiece 80.Wherein, support component 70 is used to support workpiece 80, and test section 91 is for detecting workpiece 80 The no predeterminated position for reaching support component 70.In the transmission process of workpiece 80, when 81 phase of side plate of test section 91 and workpiece 80 When contact, it may indicate that workpiece 80 reaches predeterminated position, stop conveying workpieces 80, subsequent bending can be carried out to workpiece 80.

The specific detection mode of predeterminated position is reached for workpiece 80, test section 91 is electric conductor, and side plate 81 is electric conductor, When test section 91 is in contact with side plate 81, test section 91 is electrically connected with side plate 81, and workpiece 80 reaches predeterminated position, test section 91 To control module feedback signal, control module controls bending machine starting.

In the present embodiment, test section 91 is electric conductor, and side plate 81 is electric conductor, when test section 91 is in contact with side plate 81 When, test section 91 is electrically connected with side plate 81, so as to judge that workpiece 80 reaches predeterminated position.

In the present embodiment, after test section 91 is electrically connected with side plate 81, test section 91 is controlled to control module feedback signal The conveying mechanism that module controls conveying workpieces 80 stops driving workpiece 80 mobile.

In the present embodiment, control module control bending machine starting, i.e., bending machine starts bending workpieces 80.

In the present embodiment, after test section 91 is electrically connected with side plate 81, test section 91 is controlled to control module feedback signal The conveying mechanism that module controls conveying workpieces 80 stops driving workpiece 80 mobile, and control module control bending machine starting, starts Bending.

In the present embodiment, when being manually sent into workpiece 80 in support component 70, when test section 91 and side plate 81 are electrically connected After logical, manually stop feeding, control module controls bending machine starting, starts bending.

In order to which location structure ontology 90 is mounted in support component 70, as shown in Figure 7 and Figure 8, location structure sheet Body 90 includes: interconnecting piece 92, and interconnecting piece 92 is connected with support component 70, and test section 91 is connected with interconnecting piece 92, so that inspection Survey portion 91 is connected by interconnecting piece 92 with support component 70.

In the present embodiment, by being provided with interconnecting piece 92 on location structure ontology 90, wherein interconnecting piece 92 and support Component 70 is connected, and test section 91 is connected with interconnecting piece 92, so as to so that test section 91 passes through interconnecting piece 92 and support group Part 70 is connected.

Preferably, it is provided with sliding slot 74 in support component 70, is arranged in sliding slot 74 to 92 position-adjustable of interconnecting piece.

Interconnecting piece 92 is electrically connected with support component 70 in order to prevent, and interconnecting piece 92 is prepared by insulating materials.

In order to make test section 91 be connected with control module, wiring hole 911, wiring hole are provided on test section 91 911 for connecting conductor wire, so that test section 91 is connected by conductor wire with control module.

In the present embodiment, by being provided with wiring hole 911 on test section 91, wherein wiring hole 911 is led for connecting Electric wire, so as to which test section 91 can be made to be connected by conductor wire with control module.When test section 91 is in contact with side plate 81 When, test section 91 is electrically connected with side plate 81, and so as to judge that workpiece 80 reaches predeterminated position, test section 91 is electrically connected with side plate 81 After logical, to control module feedback signal, the conveying mechanism that control module controls conveying workpieces 80 stops driving workpiece test section 91 80 is mobile.

For the specific structure of test section 91, test section 91 is conducting block, and conducting block is cuboid.

In order to adjusting the transfer position of workpiece 80, it is arranged in support component 70 to 92 position-adjustable of interconnecting piece, So that interconnecting piece 92 is arranged in support component 70 with driving 91 position-adjustable of test section.

In the present embodiment, by the way that 92 position-adjustable of interconnecting piece to be arranged in support component 70, so as to so that Interconnecting piece 92 is obtained to be arranged in support component 70 with driving 91 position-adjustable of test section.

In order to which interconnecting piece 92 to be stably placed in support component 70, location hole 921 is provided on interconnecting piece 92, Location hole 921 is used to pass through for the second fastener, so that the second fastener after location hole 921 with support component 70 by being connected It connects.

In the present embodiment, by being provided with location hole 921 on interconnecting piece 92, wherein location hole 921 is used to supply second Fastener passes through, so as to so that the second fastener by being connected after location hole 921 with support component 70.

For the specific structure of location hole 921, location hole 921 is through-hole, and location hole 921 includes that rectangle hole section and setting exist The semicircle hole section at rectangle hole section both ends, the second fastener along location hole 921 extending direction position-adjustable be arranged.

In the present embodiment, location hole 921 is through-hole, and location hole 921 includes rectangle hole section and is arranged in rectangle hole section two The semicircle hole section at end, the second fastener along location hole 921 extending direction position-adjustable be arranged, thus in interconnecting piece 92 When being arranged in position-adjustable in sliding slot 74, the second fastener along location hole 921 extending direction position-adjustable be arranged, To ensure that the second fastener locks interconnecting piece 92.

Preferably, stage portion is provided in location hole 921, stage portion is used to contact with the limit of the second fastener.

Preferably, location structure ontology 90 is multiple, and multiple location structure ontologies 90 are spaced apart and arranged in support component 70 On.

Preferably, it is arranged in support component 70 to 90 position-adjustable of location structure ontology.

For the specific structure of support component 70, as depicted in figs. 1 and 2, support component 70 includes: the first support component 71, the lower section for being at least partially disposed in the first beaming roller 50 of the first support component 71 is to support workpiece 80, the first support component 71 Be movably disposed at least partially along the direction close to or far from the first beaming roller 50, to clamp or discharge positioned at the first support group First of workpiece 80 between part 71 and the first beaming roller 50 is to bending part；Wherein, the first support component 71 is around first rotation Can be rotatably set, in the first of workpiece 80 when bending part is clamped between the first support component 71 and the first beaming roller 50, Make first to bending part bending under the action of the first support component 71.

In the present embodiment, by being provided with the first support component 71 in support component 70, wherein the first support component 71 lower section for being at least partially disposed in the first beaming roller 50 to support workpiece 80, the first support component 71 at least partially along close Or the direction far from the first beaming roller 50 is movably disposed, to clamp or discharge positioned at the first support component 71 and the first beaming roller 50 Between workpiece 80 first to bending part.In specific bending, the first of workpiece 80 is clamped in the first support group to bending part Between part 71 and the first beaming roller 50, the first support component 71 is rotated around first rotation, so as to so that first to bending part Bending under the action of the first support component 71.

For 71 specific structure of the first support component, the first support component 71 includes: the first support frame 713, the first beaming roller 50 are arranged on the first support frame 713；First support plate 711, the first support plate 711 are movably disposed at the first support frame On 713, with clamp or discharge between the first support plate 711 and the first beaming roller 50 first to bending part；First driving portion 712, the first driving portion 712 and the first support plate 711 are drivingly connected, to drive the first support plate 711 on the first support frame 713 It is moved along the direction close to or far from the first beaming roller 50；Wherein, the first support frame 713 is rotationally set around first rotation Set, with when bending part is clamped between the first support plate 711 and the first beaming roller 50, make first first to bending part first Bending under the action of support plate 711.

In order to carry out secondary bending, support component 70 to workpiece 80 further include: the second support component 72, the second support Component 72 and the first support component 71 interval are arranged, the lower section for being at least partially disposed in the second beaming roller 60 of the second support component 72 To support workpiece 80, the second support component 72 is movably set at least partially along the direction close to or far from the second beaming roller 60 It sets, to clamp or discharge second of the workpiece 80 between the second support component 72 and the second beaming roller 60 to bending part；Wherein, Second support component 72 can be rotatably set around the second rotation axis, to be clamped in second to bending part in the second of workpiece 80 When between support component 72 and the second beaming roller 60, make second to bending part bending under the action of the second support component 72.

In the present embodiment, by being provided with the second support component 72 in support component 70, wherein the second support component 72 and first support component 71 interval be arranged, the lower section for being at least partially disposed in the second beaming roller 60 of the second support component 72 is to prop up Workpiece 80 is supportted, the second support component 72 is movably disposed at least partially along the direction close to or far from the second beaming roller 60, with The second of the workpiece 80 of clamping or release between the second support component 72 and the second beaming roller 60 is to bending part.In specific bending In the process, the second of workpiece 80 is clamped between the second support component 72 and the second beaming roller 60 to bending part, the second support component 72 rotate around the second rotation axis, so as to so that second to bending part bending under the action of the second support component 72.

For the specific structure of the second support component 72, as shown in figure 3, the second support component 72 includes: the second support frame 724, the second beaming roller 60 is arranged on the second support frame 724；Second support plate 721, the second support plate 721 are movably disposed at On second support frame 724, with clamp or discharge between the second support plate 721 and the second beaming roller 60 second to bending part； Second driving portion 722, the second driving portion 722 and the second support plate 721 are drivingly connected, to drive the second support plate 721 second It is moved on support frame 724 along the direction close to or far from the second beaming roller 60；Wherein, the second support frame 724 is around the second rotation axis It can be rotatably set, it is second to be curved when bending part is clamped between the second support plate 721 and the second beaming roller 60, to make second Folding part bending under the action of the second support plate 721.

The first support component 71 is clamped in bending part for the first bending process to bending part, first when workpiece 80 When between the first beaming roller 50, the second support component 72 is at least partly supported on workpiece 80, and the first support component 71 is around One rotation axis rotation, so that first to bending part bending, wherein rotated in the first support component 71 around first rotation When, workpiece 80 is mobile relative to the second support component 72.

In the present embodiment, when workpiece 80 first to bending part be clamped in the first support component 71 and the first beaming roller 50 it Between when, the second support component 72 is at least partly supported on workpiece 80, so as to steadily be supported to workpiece 80, When specific bending, the first support component 71 is rotated around first rotation, so that first to bending part bending.In the first support group When part 71 is rotated around first rotation, workpiece 80 is mobile relative to the second support component 72, to prevent workpiece 80 from deforming.

In order to be supported to workpiece 80, support component 70 further include: third support component 73, third support component 73 be arranged between the first support component 71 and the second support component 72, third support component 73 at least partly along the vertical direction It is movably disposed, so that third support component 73 has the Support Position being in contact with workpiece 80, or is separated with 80 phase of workpiece Disengaged position.

The second support component 72 is clamped in bending part for the second bending process to bending part, second when workpiece 80 When between the second beaming roller 60, third support component 73 is at least partly supported on workpiece 80, and the second support component 72 is around Two rotation axis rotation, so that second to bending part bending, wherein rotated in the second support component 72 around the second rotation axis When, workpiece 80 is mobile relative to third support component 73.

In the present embodiment, when workpiece 80 second to bending part be clamped in the second support component 72 and the second beaming roller 60 it Between when, third support component 73 is at least partly supported on workpiece 80, so as to carry out stablizing support to workpiece 80.Having In body bending process, the second support component 72 is rotated around the second rotation axis, so that second to bending part bending.In the second support When component 72 is rotated around the second rotation axis, workpiece 80 is mobile relative to third support component 73, to prevent workpiece 80 from occurring Deformation.

In order to guarantee the reliability of bending, it is provided with rack gear 723 in the second support component 72, is covered on the second beaming roller 60 Equipped with gear 61, when the second support component 72 is rotated around the second rotation axis, rack gear 723 is meshed with gear 61, rack gear 723 Circumferential direction along gear 61 rotates, so that second to bending part bending.

In the present embodiment, it by being provided with rack gear 723 in the second support component 72, is arranged on the second beaming roller 60 with teeth Wheel 61, when the second support component 72 is rotated around the second rotation axis, rack gear 723 is meshed with gear 61, and rack gear 723 is along gear 61 circumferential direction rotation, so that second to bending part bending.

In order to go out different cambers to 80 bending of workpiece, as shown in Fig. 9 to 12, bending machine further include: yoke configurations, Yoke configurations include: clip ontology 20, the first sliding part 21 are provided on clip ontology 20, the first sliding part 21 is used for and bearing shell 30 are connected；Yoke configurations are provided on first beaming roller 50, clip ontology 20 is arranged on the first beaming roller 50, and bearing shell 30 passes through card The outer surface of the first beaming roller 50 is arranged in hoop ontology 20, is arranged on the first sliding part 21 to 30 position-adjustable of bearing shell, bearing shell 30 are adjustably arranged by the first sliding part 21 around the axial location of the first beaming roller 50, so that bearing shell 30 connects with workpiece 80 Touching or the first beaming roller 50 are in contact with workpiece 80；And/or second be provided with yoke configurations on beaming roller 60, clip ontology 20 is arranged On the second beaming roller 60, the outer surface of the second beaming roller 60,30 position-adjustable of bearing shell are arranged in by clip ontology 20 for bearing shell 30 Ground is arranged on the first sliding part 21, and bearing shell 30 is adjustably set by the first sliding part 21 around the axial location of the second beaming roller 60 It sets, so that bearing shell 30 is in contact with workpiece 80 or the second beaming roller 60 is in contact with workpiece 80.

In the present embodiment, enable to bearing shell 30 around first by the first sliding part 21 being arranged on clip ontology 20 The axial location of beaming roller 50 or the second beaming roller 60 is adjustably arranged.Wherein, the first sliding part 21 is used to be connected with bearing shell 30, So that the outer surface of the first beaming roller 50 or the second beaming roller 60 is arranged in by clip ontology 20 for bearing shell 30, the first sliding part 21 is surround First beaming roller 50 or the setting of the second beaming roller 60.When specifically used, the workpiece 80 to be bent of requirement by to(for) crooked process radius, Bearing shell 30 is in contact by the position for adjusting bearing shell 30 when needing the crooked process radius of bearing shell 30 with workpiece 80, when needing first axle When the radius of roller 50 or the second beaming roller 60, the position of bearing shell 30 is adjusted, by the first beaming roller 50 or the second beaming roller 60 and 80 phase of workpiece Contact.

In order to be arranged on the first sliding part 21 with making 30 position-adjustable of bearing shell, as shown in Figure 9 and Figure 10, axis It is provided with the second sliding part 31 on watts 30, the first sliding part 21 is matched with the second sliding part 31, and the second sliding part 31 is removable Ground is arranged on the first sliding part 21, so that bearing shell 30 moves under the action of the second sliding part 31 along the first sliding part 21.

In the present embodiment, by being provided with the second sliding part 31 on bearing shell 30, wherein the first sliding part 21 and second Sliding part 31 matches, by the way that the second sliding part 31 to be movably disposed on the first sliding part 21, so as to so that bearing shell 30 move under the action of the second sliding part 31 along the first sliding part 21.

For the specific structure of the first sliding part 21 and the second sliding part 31, the first sliding part 21 is sliding rail, the second sliding Portion 31 is sliding slot；Or, the first sliding part 21 is sliding slot, the second sliding part 31 is sliding rail.

In the present embodiment, optionally, the first sliding part 21 is sliding rail, and the second sliding part 31 is sliding slot.

Optionally, the first sliding part 21 is sliding slot, and the second sliding part 31 is sliding rail.

Preferably, the first sliding part 21 and the second sliding part 31 are step-like, the first sliding part 21 and the second sliding part 31 phases overlap joint.

In the present embodiment, the first sliding part 21 and the second sliding part 31 are step-like, the first sliding part 21 and second 31 phase of sliding part overlap joint, i.e. the first sliding part 21 include First terrace and second step face, and the second sliding part 31 includes third Step surface and the 4th step surface, First terrace and third step surface fit, and second step face fits with the 4th step surface.

For the specific structure of clip ontology 20, clip ontology 20 is compatible with the first beaming roller 50 or the second beaming roller 60 Annular shape, the first sliding part 21 extend along the circumferential direction of clip ontology 20, extending direction of the bearing shell 30 along the first sliding part 21 It is movably disposed, so that bearing shell 30 is movably disposed along the circumferential direction of the first beaming roller 50 or the second beaming roller 60.

In the present embodiment, clip ontology 20 is annular shape compatible with the first beaming roller 50 or the second beaming roller 60, wherein First sliding part 21 extends along the circumferential direction of clip ontology 20, by can along the extending direction of the first sliding part 21 by bearing shell 30 Movably it is arranged, so as to so that bearing shell 30 is movably disposed along the circumferential direction of the first beaming roller 50 or the second beaming roller 60.Its In, bearing shell 30 is movably disposed along the circumferential direction of the first beaming roller 50 or the second beaming roller 60, i.e., bearing shell 30 is around the first beaming roller 50 Or second the axial location of beaming roller 60 be movably disposed.

Preferably, the first sliding part 21 is provided in the part clip section of clip ontology 20, the setting of the first sliding part 21 exists The inside of clip ontology 20, so that the part bearing shell section of bearing shell 30 is folded in clip ontology 20 and the first beaming roller 50 or the second beaming roller Between 60.

In order to facilitate the installation of, as shown in figure 12, clip ontology 20 includes: the first clip portion 22；Second clip portion 23, second Clip portion 23 and the first clip portion 22 are detachably connectable, have between the second clip portion 23 and the first clip portion 22 for supplying The perforating 24 that first beaming roller 50 or the second beaming roller 60 pass through；Wherein, the setting of the first sliding part 21 in the first clip portion 22 and/or In second clip portion 23.

In the present embodiment, clip ontology 20 includes the first clip portion 22 and the second clip portion 23, wherein the second clip portion 23 is detachably connectable with the first clip portion 22, so as to easily replace the first clip portion 22 and the second clip portion 23, Also facilitate the installation of clip ontology 20.

In the present embodiment, have between the second clip portion 23 and the first clip portion 22 for supplying the first beaming roller 50 or the second The perforating 24 that beaming roller 60 passes through, so as to which the first beaming roller 50 or the second beaming roller 60 to be threaded through in perforating 24.

In the present embodiment, the first sliding part 21 is arranged in the first clip portion 22 and/or the second clip portion 23.

In the present embodiment, the second clip portion 23 is clamped with the first clip portion 22, bonds or is connect by fastener.

Preferably, the first clip portion 22 is semicircular ring, and the first glissile segment of the first sliding part 21 is arranged in the first clip portion On 22, circumferential direction of first glissile segment along the first clip portion 22 extends, the first clip portion 22 and the first beaming roller 50 or the second axis The first working space for accommodating bearing shell 30 is formed between roller 60.

Correspondingly, the second clip portion 23 is semicircular ring, and the second glissile segment of the first sliding part 21 is arranged in the second clip portion On 23, circumferential direction of second glissile segment along the second clip portion 23 extends, the second clip portion 23 and the first beaming roller 50 or the second axis The second working space for accommodating bearing shell 30 is formed between roller 60.

In order to guarantee the relative position of bearing shell 30 and the first beaming roller 50 or the second beaming roller 60, set on the first sliding part 21 Be equipped with the fastener hole 211 passed through for the first fastener 40, one end of the first fastener 40 pass through after fastener hole 211 and with bearing shell 30 It abuts against.

In the present embodiment, it is provided with fastener hole 211 on the first sliding part 21, by wearing one end of the first fastener 40 It crosses after fastener hole 211 and is abutted against with bearing shell 30, thereby may be ensured that the phase of bearing shell 30 with the first beaming roller 50 or the second beaming roller 60 Position is fixedly installed.

Preferably, fastener hole 211 is multiple, and multiple fastener holes 211 are arranged along the extending direction interval of the first sliding part 21.

Preferably, locking hole 25 is provided on clip ontology 20, locking hole 25 is used to pass through for locking member and and first axle Roller 50 or the second beaming roller 60 are in contact.Wherein, locking hole 25 is multiple, circumferential direction of multiple locking holes 25 along clip ontology 20 Interval setting.

Preferably, backstop slot 26 is provided on clip ontology 20, locking member sequentially passes through backstop slot 26 and locking hole 25, with It is in contact with the first beaming roller 50 or the second beaming roller 60, the locking head of locking member is arranged in backstop slot 26.

In the present embodiment, workpiece 80 is the evaporator or condenser of air conditioner.

It can be seen from the above description that the above embodiments of the utility model achieve the following technical effects:

The bending machine of the utility model passes through the first beaming roller 50, the second beaming roller 60, support component 70 and location structure energy Enough realize the quick bending of workpiece.Wherein, the second beaming roller 60 and the first beaming roller 50 interval be arranged, support component 70 be used to support to The workpiece 80 of bending, the first beaming roller 50 and the second beaming roller 60 are arranged at the top of support component 70, location structure and support group Part 70 is connected, and location structure is for detecting whether workpiece 80 is transported to predeterminated position.In specific bending, pass through location structure Workpiece 80 is placed into accurate location, passes through at least partly overturning of support component 70, then so as to so that workpiece is supporting Bending under the action of component 70 and the first beaming roller 50, and bending under the action of support component 70 and the second beaming roller 60.This reality Workpiece can be realized by the first beaming roller 50, the second beaming roller 60, support component 70 and location structure with novel bending machine Quick double-bending solves the problems, such as that bending machine in the prior art is complex when carrying out double-bending.

It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so that presently filed embodiment described herein for example can be in addition to herein Sequence other than those of diagram or description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that Be to cover it is non-exclusive include, for example, containing the process, method, system, product or equipment of a series of steps or units not Those of be necessarily limited to be clearly listed step or unit, but may include be not clearly listed or for these processes, side The intrinsic other step or units of method, product or equipment.

For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ", " ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure Except different direction in use or operation.For example, being described as if the device in attached drawing is squeezed " in other devices It will be positioned as " under other devices or construction after part or construction top " or the device of " on other devices or construction " Side " or " under other devices or construction ".Thus, exemplary term " ... top " may include " ... top " and " in ... lower section " two kinds of orientation.The device can also be positioned with other different modes and (is rotated by 90 ° or in other orientation), and And respective explanations are made to the opposite description in space used herein above.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (15)

1. a kind of bending machine characterized by comprising

First beaming roller (50)；

Second beaming roller (60), second beaming roller (60) and first beaming roller (50) interval are arranged；

Support component (70), the support component (70) are used to support the workpiece (80) to bending, first beaming roller (50) and Second beaming roller (60) is arranged at the top of the support component (70)；

Location structure, the location structure are connected with the support component (70), and the location structure is for detecting the work Whether part (80) is transported to predeterminated position；

Wherein, support component (70) are arranged at least partly turnablely, so that the workpiece (80) is in the support group Under the action of part (70) and first beaming roller (50) or under the action of the support component (70) and second beaming roller (60) Bending.

2. bending machine according to claim 1, which is characterized in that the location structure includes:

Location structure ontology (90) is provided with test section (91) on the location structure ontology (90), and the test section (91) is used The predeterminated position whether is reached in the detection workpiece (80)；

Wherein, when the test section (91) is in contact with the side plate (81) of the workpiece (80), the workpiece (80) reaches institute State predeterminated position.

3. bending machine according to claim 2, which is characterized in that the test section (91) is electric conductor, the side plate It (81) is electric conductor, when the test section (91) is in contact with the side plate (81), the test section (91) and the side plate (81) it is electrically connected, the workpiece (80) reaches the predeterminated position, and the test section (91) is described to control module feedback signal Control module controls the bending machine starting.

4. bending machine according to claim 2, which is characterized in that the location structure ontology (90) includes:

Interconnecting piece (92), the interconnecting piece (92) are connected with the support component (70), the test section (91) and the company Socket part (92) is connected, so that the test section (91) is connected by the interconnecting piece (92) with the support component (70).

5. bending machine according to claim 4, which is characterized in that sliding slot (74) are provided on the support component (70), Interconnecting piece (92) position-adjustable it is arranged in the sliding slot (74).

6. bending machine according to claim 4, which is characterized in that the interconnecting piece (92) is prepared by insulating materials.

7. bending machine according to claim 1, which is characterized in that the support component (70) includes:

First support component (71), first support component (71) are at least partially disposed under first beaming roller (50) Side to support the workpiece (80), first support component (71) at least partially along close to or far from first beaming roller (50) direction is movably disposed, to clamp or discharge positioned at first support component (71) and first beaming roller (50) Between the workpiece (80) first to bending part；

Wherein, first support component (71) can be rotatably set around first rotation, the of the workpiece (80) One when bending part is clamped between first support component (71) and first beaming roller (50), is made described first wait bend Portion's bending under the action of the first support component (71).

8. bending machine according to claim 7, which is characterized in that first support component (71) includes:

First support frame (713), first beaming roller (50) are arranged on first support frame (713)；

First support plate (711), first support plate (711) are movably disposed on first support frame (713), with Clamp or discharge between first support plate (711) and first beaming roller (50) described first to bending part；

First driving portion (712), first driving portion (712) and first support plate (711) are drivingly connected, to drive The first support plate (711) is stated to move on first support frame (713) along the direction close to or far from first beaming roller (50) It is dynamic；

Wherein, first support frame (713) can be rotatably set around the first rotation, with described first wait bend When portion is clamped between first support plate (711) and first beaming roller (50), make described first to bending part described Bending under the action of first support plate (711).

9. bending machine according to claim 7, which is characterized in that the support component (70) further include:

Second support component (72), second support component (72) and first support component (71) interval are arranged, described The lower section for being at least partially disposed in second beaming roller (60) of second support component (72) is described to support the workpiece (80) Second support component (72) is movably disposed at least partially along the direction close to or far from second beaming roller (60), with folder Tight or discharging the workpiece (80) between second support component (72) and second beaming roller (60) second to Bending part；

Wherein, second support component (72) can be rotatably set around the second rotation axis, the of the workpiece (80) Two when bending part is clamped between second support component (72) and second beaming roller (60), is made described second wait bend Portion's bending under the action of the second support component (72).

10. bending machine according to claim 9, which is characterized in that second support component (72) includes:

Second support frame (724), second beaming roller (60) are arranged on second support frame (724)；

Second support plate (721), second support plate (721) are movably disposed on second support frame (724), with Clamp or discharge between second support plate (721) and second beaming roller (60) described second to bending part；

Second driving portion (722), second driving portion (722) and second support plate (721) are drivingly connected, to drive The second support plate (721) is stated to move on second support frame (724) along the direction close to or far from second beaming roller (60) It is dynamic；

Wherein, second support frame (724) can be rotatably set around second rotation axis, with described second wait bend When portion is clamped between second support plate (721) and second beaming roller (60), make described second to bending part described Bending under the action of second support plate (721).

11. bending machine according to claim 9, which is characterized in that first when the workpiece (80) clamps to bending part When between first support component (71) and first beaming roller (50), second support component (72) is at least partly It is supported on the workpiece (80), first support component (71) rotates around the first rotation, so that described first To bending part bending, wherein when first support component (71) rotates around the first rotation, the workpiece (80) It is mobile relative to second support component (72).

12. bending machine according to claim 9, which is characterized in that the support component (70) further include:

Third support component (73), the third support component (73) are arranged in first support component (71) and described second Between support component (72), the third support component (73) is at least partly movably disposed along the vertical direction, so that institute Stating third support component (73) has the Support Position being in contact with the workpiece (80), or mutually separated with the workpiece (80) Disengaged position.

13. bending machine according to claim 12, which is characterized in that second when the workpiece (80) clamps to bending part When between second support component (72) and second beaming roller (60), the third support component (73) is at least partly It is supported on the workpiece (80), second support component (72) rotates around second rotation axis, so that described second To bending part bending, wherein when second support component (72) rotates around second rotation axis, the workpiece (80) It is mobile relative to the third support component (73).

14. bending machine according to claim 9, which is characterized in that be provided with rack gear on second support component (72) (723), gear (61) are arranged on second beaming roller (60), when second support component (72) is around second rotary shaft When line rotates, the rack gear (723) is meshed with the gear (61), circumferential direction of the rack gear (723) along the gear (61) Direction rotation, so that described second to bending part bending.

15. bending machine according to claim 1, which is characterized in that the bending machine further include:

Yoke configurations, the yoke configurations include: clip ontology (20), are provided with the first sliding part on the clip ontology (20) (21), first sliding part (21) with bearing shell (30) for being connected；

The yoke configurations are provided on first beaming roller (50), the clip ontology (20) is arranged in first beaming roller (50) on, the bearing shell (30) is arranged by the clip ontology (20) in the outer surface of first beaming roller (50), the axis It is arranged on first sliding part (21) to watt (30) position-adjustable, the bearing shell (30) passes through first sliding part (21) axial location around first beaming roller (50) is adjustably arranged, so that the bearing shell (30) and the workpiece (80) phase Contact or first beaming roller (50) are in contact with the workpiece (80)；

And/or the yoke configurations are provided on second beaming roller (60), the clip ontology (20) is arranged described second On beaming roller (60), the bearing shell (30) is arranged by the clip ontology (20) in the outer surface of second beaming roller (60), institute It is arranged on first sliding part (21) with stating bearing shell (30) position-adjustable, the bearing shell (30) is slided by described first Portion (21) is adjustably arranged around the axial location of second beaming roller (60), so that the bearing shell (30) and the workpiece (80) It is in contact or second beaming roller (60) is in contact with the workpiece (80).