CN208359276U - Shearing mechanism and shearing equipment with same - Google Patents

Abstract

The utility model provides a shear mechanism and have its shearing equipment, shear the mechanism and include: a first cutting assembly comprising at least two first blades; a second cutting assembly comprising at least two second blades; the first blades and the second blades are arranged in a one-to-one correspondence mode, and the two paired first blades and the two paired second blades are arranged in a relatively movable mode so as to cut a workpiece located between the first blades and the second blades from a blank. The utility model discloses a shear mechanism has solved the lower problem of mechanism efficiency of shearing among the prior art.

Description

Cutting mechanism and shearing equipment with it

Technical field

The utility model relates to material cutting machinery fields, in particular to a kind of cutting mechanism and cutting with it Cut equipment.

Background technique

In the prior art, when carrying out shearing work for being molded the sample of blank material, such blank material is generally circumferentially equal It is even that several products are distributed with.There are the dislocation of upper bottom knife, shearing forces in shearing for such shear in the prior art not Thus the problems such as foot, shearing are not thorough causes blade loss fast, product qualification rate is low.And existing shear is only arranged There is a pair of of shear-blade, in shear sample, each shear action can only be cut out a sample, for having multiple samples It is molded blank material, motor, which need to rotate, could repeatedly complete shearing work.This mode inefficiency, cutting operation time-consuming is too long, Injection molding machine productive temp is influenced, and motor and cylinder act frequently, loss is very fast.

Utility model content

It is existing to solve the main purpose of the utility model is to provide a kind of cutting mechanism and with its shearing equipment The lower problem of cutting mechanism efficiency in technology.

To achieve the goals above, one aspect according to the present utility model provides a kind of cutting mechanism, comprising: the One shearing component, the first shearing component include at least two first blades；Second shearing component, the second shearing component include at least Two the second blades；Wherein, each first blade is correspondingly arranged one by one with each second blade, two pairs of the first knives Piece is opposite with the second blade to be movably disposed, and the workpiece being located between the first blade and the second blade is cut from blank Under.

Further, the first shearing component is opposite with the second shearing component is movably disposed, with drive the first blade with The relative movement of second blade.

Further, cutting mechanism further include: the second driving assembly, the second driving assembly and the first shearing component and second Shearing component is drivingly connected, to drive the first shearing component and the second shearing component to relatively move.

Further, the second driving assembly includes: moving portion, and moving portion and the first shearing component and the second shearing component are equal Connection；Wherein, moving portion is movably disposed along the first preset direction, to drive the first shearing component and the second shearing component phase It is close or mutually separate.

Further, first sliding groove and second sliding slot are provided in moving portion, the first shearing component further includes the first sliding The one end in portion, the first sliding part is arranged in first sliding groove, and the second shearing component further includes the second sliding part, the second sliding part One end is arranged in second sliding slot, with when moving portion is mobile, the first sliding part moves in first sliding groove, and the second sliding part exists It is moved in second sliding slot.

Further, first sliding groove and second sliding slot are strip groove, the extending direction of first sliding groove and second sliding slot Extending direction is arranged in a crossed manner with the first preset direction, to make the first shearing group when moving portion is moved along the first preset direction Part and the second shearing component are moved along the direction perpendicular to the first preset direction, so that the first shearing component and the second shearing group Part is mutually close or mutually separate.

Further, first sliding groove is bending slot, and second sliding slot is bending slot.

Further, sliding block, cutting mechanism are provided in moving portion further include: fixation kit, fixation kit include sliding rail, Sliding block is movably disposed on sliding rail, so that moving portion moves under the action of sliding block along sliding rail.

Further, fixation kit further include: pedestal；Guide post, guide post are set on the base, the first shearing component and Second shearing component is spaced apart and arranged in guide post；Wherein, when moving portion moves under the action of sliding block along sliding rail, first Shearing component is moved with the second shearing component along guide post.

Further, the first shearing component further include: the first tool apron is arranged in first at least two first blade clearances On tool apron, at least two first blades are correspondingly arranged at least two workpiece on blank；Second shearing component further include: Second tool apron is arranged on the second tool apron at least two second blade clearances, at least two second blades and blank extremely Few two workpiece are correspondingly arranged；Wherein, two pairs of the first tool aprons are opposite with the second tool apron is movably disposed, will It is cut from blank positioned at each workpiece between the first blade and the second blade.

Another aspect according to the present utility model, provides a kind of shearing equipment, including cutting mechanism, and cutting mechanism is upper The cutting mechanism stated.

The cutting mechanism of the utility model is by being provided at least two pair of first blade and the second blade can be simultaneously from base At least two workpiece are cut on material, to improve the shear efficiency of cutting mechanism.Wherein, the first shearing component includes at least two A first blade, the second shearing component include at least two second blades, each first blade and each second blade phase one by one It is arranged in correspondence with, two pairs of the first blades are opposite with the second blade to be movably disposed.In specific shear history, pass through Two pairs of the first blades and the second blade relatively move, so as to the work that will be located between the first blade and the second blade Part is cut from blank.The cutting mechanism of the utility model can be same with the second blade by being provided at least two pair of first blade When at least two workpiece are cut from blank, to improve the shear efficiency of cutting mechanism, solve in the prior art cut Cut the lower problem of mechanism efficiency.

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 cutting mechanism according to the present utility model；

Fig. 2 shows the exploded structural schematic diagrams at the first visual angle of cutting mechanism according to the present utility model；

Fig. 3 shows the exploded structural schematic diagram at the second visual angle of cutting mechanism according to the present utility model.

Wherein, the above drawings include the following reference numerals:

50, workpiece；70, the first shearing component；71, the first blade；72, the first sliding part；73, the first tool apron；80, second Shearing component；81, the second blade；82, the second sliding part；83, the second tool apron；90, blank；100, the second driving assembly；101, Moving portion；1011, first sliding groove；1012, second sliding slot；102, cylinder is driven；103, sliding block；110, fixation kit；111, sliding Rail；112, pedestal；113, guide post.

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 cutting mechanism, please refers to Fig. 1 to Fig. 3, and cutting mechanism includes: the first shearing component 70, the first shearing component 70 includes at least two first blades 71；Second shearing component 80, the second shearing component 80 include at least Two the second blades 81；Wherein, each first blade 71 is correspondingly arranged one by one with each second blade 81, and pairs of two First blade 71 is movably disposed relatively with the second blade 81, the work that will be located between the first blade 71 and the second blade 81 Part 50 is cut from blank 90.

The cutting mechanism of the utility model is by being provided at least two pair of first blade 71 and the second blade 81 can be simultaneously At least two workpiece 50 are cut from blank 90, to improve the shear efficiency of cutting mechanism.Wherein, the first shearing component 70 Including at least two first blades 71, the second shearing component 80 includes at least two second blades 81, each first blade 71 with Each second blade 81 is correspondingly arranged one by one, and two pairs of the first blades 71 are movably set relatively with the second blade 81 It sets.It in specific shear history, is relatively moved by two pairs of the first blades 71 and the second blade 81, so as to by position Workpiece 50 between the first blade 71 and the second blade 81 is cut from blank 90.The cutting mechanism of the utility model is by setting At least two workpiece 50 can be cut from blank 90 simultaneously by being equipped at least two pair of first blade 71 and the second blade 81, to mention The high shear efficiency of cutting mechanism, solves the problems, such as that cutting mechanism efficiency in the prior art is lower.

In order to relatively move pairs of two the first blades 71 and the second blade 81, the first shearing component 70 is cut with second It cuts component 80 to be movably disposed relatively, to drive the first blade 71 and the second blade 81 to relatively move.

In the present embodiment, by the way that the first shearing component 70 and the second shearing component 80 to be movably disposed relatively, from And the first blade 71 and the second blade 81 can be driven to relatively move, it will be located between the first blade 71 and the second blade 81 Workpiece 50 is cut from blank 90.

Preferably, the first shearing component 70 and the second shearing component 80 synchronize be movably disposed.

In the present embodiment, by by the first shearing component 70 and the second shearing component 80 synchronize be movably disposed, no The efficiency of shearing only can be improved it is also ensured that shearing force suffered by workpiece 50 is more consistent.

In order to guarantee that the first shearing component 70 and the second shearing component 80 relatively move, as shown in Figure 1, cutting mechanism Further include: the second driving assembly 100, the second driving assembly 100 drive with the first shearing component 70 and the second shearing component 80 Connection, to drive the first shearing component 70 and the second shearing component 80 to relatively move.

In the present embodiment, by being provided with the second driving assembly 100 on cutting mechanism, wherein the second driving assembly 100 are drivingly connected with the first shearing component 70 and the second shearing component 80, so as to be driven by the second driving assembly 100 First shearing component 70 and the second shearing component 80 relatively move.

For the specific structure of the second driving assembly 100, as depicted in figs. 1 and 2, the second driving assembly 100 includes: movement Portion 101, moving portion 101 are all connected with the first shearing component 70 and the second shearing component 80；Wherein, moving portion 101 is pre- along first Set direction is movably disposed, to drive the first shearing component 70 and the second shearing component 80 mutually close or mutually separate.

In the present embodiment, the second driving assembly 100 includes moving portion 101, wherein moving portion 101 and the first shearing group Part 70 and the second shearing component 80 are all connected with.In specific shear history, moving portion 101 is movably set along the first preset direction It sets, to drive the first shearing component 70 and the second shearing component 80 mutually close or mutually separate, that is, completes shearing.

In the present embodiment, when moving portion 101 is mobile, the first shearing component 70 and the second shearing component 80 are along perpendicular to shifting The direction synchronizing moving of the moving direction in dynamic portion 101, the first shearing component 70 is with the second shearing component 80 along two opposite sides To movement.

Preferably, as shown in Fig. 2, being provided with first sliding groove 1011 and second sliding slot 1012 in moving portion 101, the first shearing Component 70 further includes the first sliding part 72, and one end of the first sliding part 72 is arranged in first sliding groove 1011, the second shearing component 80 further include the second sliding part 82, and one end of the second sliding part 82 is arranged in second sliding slot 1012, when the movement of moving portion 101 When, the first sliding part 72 moves in first sliding groove 1011, and the second sliding part 82 moves in second sliding slot 1012.

Preferably, the first cam is provided on the first sliding part 72, the first cam is arranged in first sliding groove 1011, and first Cam can be rotatably set relative to first sliding groove 1011, correspondingly, be provided with the second cam on the second sliding part 82, second is convex Wheel is arranged in second sliding slot 1012, and the second cam can be rotatably set relative to second sliding slot 1012.

Preferably, the second driving assembly 100 further include: driving cylinder 102 drives the drive rod and moving portion of cylinder 102 101 are drivingly connected, to drive moving portion 101 to move along the first preset direction, so as to drive the first shearing component 70 and the Two shearing components 80 are mutually close or mutually separate.

In order to guarantee that the first shearing component 70 is moved with the second shearing component 80 along two opposite directions, first is sliding Slot 1011 and second sliding slot 1012 are strip groove, the extending direction of first sliding groove 1011 and the extending direction of second sliding slot 1012 It is arranged in a crossed manner with the first preset direction, to make 70 He of the first shearing component when moving portion 101 is moved along the first preset direction Second shearing component 80 is moved along the direction perpendicular to the first preset direction, so that the first shearing component 70 and the second shearing group Part 80 is mutually close or mutually separate.

In the present embodiment, by the way that first sliding groove 1011 and second sliding slot 1012 are disposed as strip groove, wherein first The extending direction of sliding slot 1011 and the extending direction of second sliding slot 1012 are arranged in a crossed manner with the first preset direction, i.e. first sliding groove 1011 extending direction and the extending direction of second sliding slot 1012 have certain angle.To pre- along first in moving portion 101 When set direction is mobile, the first shearing component 70 and the second shearing component 80 can be made to move along the direction perpendicular to the first preset direction It is dynamic, so that the first shearing component 70 and the second shearing component 80 are mutually close or mutually separate.

Preferably, first sliding groove 1011 and second sliding slot 1012 are relatively symmetrically arranged.

Preferably, first sliding groove 1011 is bending slot, and second sliding slot 1012 is bending slot.

Preferably, sliding block 103, cutting mechanism are provided in moving portion 101 further include: fixation kit 110, fixation kit 110 include sliding rail 111, and sliding block 103 is movably disposed on sliding rail 111, so that moving portion 101 is under the action of sliding block 103 It is moved along sliding rail 111.

Preferably, fixation kit 110 further include: pedestal 112；Guide post 113, guide post 113 are arranged on pedestal 112, First shearing component 70 and the second shearing component 80 are spaced apart and arranged in guide post 113；Wherein, when moving portion 101 is in sliding block When moving under the action of 103 along sliding rail 111, the first shearing component 70 is moved with the second shearing component 80 along guide post 113.

For the specific structure of the first shearing component 70 and the second shearing component 80, as shown in Figures 2 and 3, the first shearing Component 70 further include: the first tool apron 73, at least two first blades 71 are spaced apart and arranged on the first tool apron 73, and at least two One blade 71 is correspondingly arranged at least two workpiece 50 on blank 90；Second shearing component 80 further include: the second tool apron 83, at least two second blades 81 are spaced apart and arranged on the second tool apron 83, at least two second blades 81 and blank 90 At least two workpiece 50 are correspondingly arranged；Wherein, in pairs two the first tool aprons 73 and the second tool apron 83 are relatively movably Setting, will be located at each workpiece 50 between the first blade 71 and the second blade 81 and cuts from blank 90.

In the present embodiment, by being provided with the first tool apron 73 on the first shearing component 70, wherein at least two first Blade 71 is spaced apart and arranged on the first tool apron 73, at least two first blades 71 and at least two workpiece, 50 phase on blank 90 It is arranged in correspondence with.

Correspondingly, by being provided with the second tool apron 83 on the second shearing component 80, wherein at least two second blades 81 It is spaced apart and arranged on the second tool apron 83, at least two second blades 81 and at least two workpiece 50 on blank 90 are correspondingly Setting.In specific shear history, two pairs of the first tool aprons 73 are movably disposed relatively with the second tool apron 83, so as to It is cut from blank 90 so that each workpiece 50 between the first blade 71 and the second blade 81 will be located at.

The cutting mechanism of the utility model mainly by shearing cylinder (driving cylinder 102) and shear sliding block (moving portion 101), Sliding rail 111, sliding block 103, guide post (guide post 113) and upper and lower tool arm component (the first shearing component 70 and the second shearing component 80) it constitutes；Upper slitter arm component is fixed together movement by upper slitter arm seat, upper tool arm, upper cutter head, cut arm component by lower tool apron, Lower tool arm cuts arm seat and is fixed together movement.Upper and lower tool arm component passes through followup cam respectively and shearing sliding block is realized and rolled Connection, shearing sliding block are fixed on sliding block, and sliding block is nested with guide rail.In shearing, the piston rod for shearing cylinder pushes shearing to slide Block is moved along guide rail, meanwhile, followup cam along shearing sliding block sliding slot move up and down, thus drive be attached thereto it is upper and lower Tool arm component moves up and down, and completes shear action.

In the present embodiment, in product (workpiece 50) shearing work for carrying out injection molding blank material (blank 90), according to note The product quantity and distribution angle above blank material are moulded, two pairs of blades are respectively set on the specific position of upper tool arm and lower tool arm (the first blade 71 and the second blade 81), a cutting mechanism shear action of every completion, servo motor rotate with it, so that injection molding Blank material turns an angle, and the product that do not shear is rotated to the clipped position of blade, to be sheared next time.

The utility model additionally provides a kind of shearing equipment, including cutting mechanism, and cutting mechanism is above-mentioned cutting mechanism.

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

The cutting mechanism of the utility model is by being provided at least two pair of first blade 71 and the second blade 81 can be simultaneously At least two workpiece 50 are cut from blank 90, to improve the shear efficiency of cutting mechanism.Wherein, the first shearing component 70 Including at least two first blades 71, the second shearing component 80 includes at least two second blades 81, each first blade 71 with Each second blade 81 is correspondingly arranged one by one, and two pairs of the first blades 71 are movably set relatively with the second blade 81 It sets.It in specific shear history, is relatively moved by two pairs of the first blades 71 and the second blade 81, so as to by position Workpiece 50 between the first blade 71 and the second blade 81 is cut from blank 90.The cutting mechanism of the utility model is by setting At least two workpiece 50 can be cut from blank 90 simultaneously by being equipped at least two pair of first blade 71 and the second blade 81, to mention The high shear efficiency of cutting mechanism, solves the problems, such as that cutting mechanism efficiency in the prior art is lower.

The cutting mechanism that the utility model mentions solves bottom knife dislocation, shearing force deficiency etc. on existing shear and asks Topic, a product can only be cut by correspondingly solving the problems, such as once to shear, and it is multiple that a shear action completion may be implemented The purpose of product shearing, improves production efficiency, reduces the operating frequency of cylinder and motor, extend service life.

The cutting mechanism that the utility model mentions can realize the product shearing work of stability and high efficiency, shear-blade accurate positioning, Consistency is high, and the Qualified Products Rate of shearing force foot, shearing is high, and is provided with two pairs of shear-blades, and shear efficiency substantially mentions It rises.

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 (11)

1. a kind of cutting mechanism characterized by comprising

First shearing component (70), first shearing component (70) include at least two first blades (71)；

Second shearing component (80), second shearing component (80) include at least two second blades (81)；

Wherein, each first blade (71) is correspondingly arranged one by one with each second blade (81), and pairs of two A first blade (71) is opposite with second blade (81) to be movably disposed, and first blade (71) will be located at Workpiece (50) between second blade (81) is cut from blank (90).

2. cutting mechanism according to claim 1, which is characterized in that first shearing component (70) is cut with described second It cuts component (80) to be movably disposed relatively, to drive first blade (71) and second blade (81) to relatively move.

3. cutting mechanism according to claim 2, which is characterized in that the cutting mechanism further include:

Second driving assembly (100), second driving assembly (100) and the first shearing component (70) and the second shearing group Part (80) is drivingly connected, to drive first shearing component (70) and second shearing component (80) to relatively move.

4. cutting mechanism according to claim 3, which is characterized in that second driving assembly (100) includes:

Moving portion (101), the moving portion (101) and first shearing component (70) and second shearing component (80) are equal Connection；

Wherein, the moving portion (101) is movably disposed along the first preset direction, to drive first shearing component (70) It is mutually close or mutually separate with second shearing component (80).

5. cutting mechanism according to claim 4, which is characterized in that be provided with first sliding groove on the moving portion (101) (1011) and second sliding slot (1012), first shearing component (70) further include the first sliding part (72), first sliding In the first sliding groove (1011), second shearing component (80) further includes the second sliding part for one end setting in portion (72) (82), one end setting of second sliding part (82) is in the second sliding slot (1012), to move when the moving portion (101) When dynamic, first sliding part (72) is moved in the first sliding groove (1011), and second sliding part (82) is described the Two sliding slots move in (1012).

6. cutting mechanism according to claim 5, which is characterized in that the first sliding groove (1011) and the second sliding slot It (1012) is strip groove, the extending direction of the first sliding groove (1011) and the extending direction of the second sliding slot (1012) are equal It is arranged in a crossed manner with first preset direction, it is described to make when the moving portion (101) is moved along first preset direction First shearing component (70) and second shearing component (80) are moved along the direction perpendicular to first preset direction, with Keep first shearing component (70) and second shearing component (80) mutually close or mutually separate.

7. cutting mechanism according to claim 6, which is characterized in that the first sliding groove (1011) is bending slot, described Second sliding slot (1012) is bending slot.

8. cutting mechanism according to claim 4, which is characterized in that be provided with sliding block on the moving portion (101) (103), the cutting mechanism further include:

Fixation kit (110), the fixation kit (110) include sliding rail (111), and the sliding block (103) is movably disposed at On the sliding rail (111), so that the moving portion (101) is moved under the action of the sliding block (103) along the sliding rail (111) It is dynamic.

9. cutting mechanism according to claim 8, which is characterized in that the fixation kit (110) further include:

Pedestal (112)；

Guide post (113), the guide post (113) are arranged on the pedestal (112), first shearing component (70) and the Two shearing components (80) are spaced apart and arranged on the guide post (113)；

Wherein, when mobile along the sliding rail (111) under the action of the moving portion (101) is in the sliding block (103), described the One shearing component (70) and second shearing component (80) are mobile along the guide post (113).

10. cutting mechanism according to claim 1, which is characterized in that

First shearing component (70) further include:

First tool apron (73), at least two first blades (71) are spaced apart and arranged on first tool apron (73), at least Two first blades (71) are correspondingly arranged at least two workpiece (50) on the blank (90)；

Second shearing component (80) further include:

Second tool apron (83), at least two second blades (81) are spaced apart and arranged on second tool apron (83), at least Two second blades (81) are correspondingly arranged at least two workpiece (50) on the blank (90)；

Wherein, two pairs of first tool aprons (73) are opposite with second tool apron (83) is movably disposed, by position It is cut from the blank (90) in each workpiece (50) between first blade (71) and second blade (81) Under.

11. a kind of shearing equipment, including cutting mechanism, which is characterized in that the cutting mechanism is any in claims 1 to 10 Cutting mechanism described in.