CN105416721A - Corner cutting machine device - Google Patents

Abstract

The invention relates to a corner cutting machine device which comprises a storing assembly, a first clamping assembly, a second clamping assembly and a hot melting knife assembly, wherein the storing assembly is used for storing a workpiece and making one corner of the workpiece be exposed, so that the angle allowance of the corner is exposed; the first clamping assembly comprises a first clamping plate, and the first clamping plate can move back and forth in the first axial direction; the second clamping assembly comprises a second clamping plate which is arranged oppositely to the first clamping plate, the second clamping plate can move back and forth in the first axial direction so as to be matched with the first clamping assembly to clamp the angle allowance, and a groove-shaped slot is formed in the second clamping plate, the hot melting knife assembly comprises a hot melting knife, the hot melting knife is located on the side, away from the first clamping plate, of the second clamping plate and can move back and forth in the first axial direction to penetrate through the groove-shaped slot so as to cut the angle allowance between the first clamping plate and the second clamping plate. By means of the corner cutting machine device, the angle allowance of packaging bags can be cut automatically.

Description

Angle shear device

Technical field

The present invention relates to packing of product technical field, particularly relate to a kind of angle shear device.

Background technology

Electronic product (as mobile phone, pad etc.) is before dispatching from the factory, usually first electronic product is contained in box, loaded by box in the packaging bag (being generally plastic packaging bag) closed one end open one end, after installing, then the open end of enclose bag can dispatch from the factory again.As shown in Figure 8, box is square usually, and after the open end of packaging bag is closed, the part that packaging bag is positioned at four angles of box is usually piled up and had angle surplus A, causes packaging bag unfairness, impact packaging effect.In order to make the packaging bag of having packed product smooth, the mode that usual employing is manually hand-maked removes the angle surplus of packaging bag, and a packaging bag quadricorn angle surplus of having packed product needs to remove, the work capacity of hand cutting is large, and then causes production efficiency low.

Summary of the invention

Based on this, be necessary the angle shear device of the angle surplus that the packaging bag of a kind of energy automatic cutting is provided.

A kind of angle shear device, for the angle surplus of cutting workpiece, described workpiece is package the product in the object formed in plastic packaging bag, the number at the angle of described workpiece is more than or equal to one, the angle of described workpiece refers in the circumference of described workpiece, the junction that adjacent both side surface angularly connects, comprising:

Blowing assembly, for placing described workpiece, and makes described workpiece angle expose, to expose the angle surplus at this angle place;

First clamp assemblies, comprises the first clamping plate, and described first clamping plate can move back and forth along the first direction of principal axis;

Second clamp assemblies, comprises the second clamping plate, and described second clamping plate and described first clamping plate just to setting, and can move back and forth along the first direction of principal axis, and clamp described angle surplus to coordinate with described first clamp assemblies, described second clamping plate are provided with grooved mouth; And

Hot melt knife assembly, comprise hot melt cutter, described hot melt cutter spacing in the side of described second clamping plate away from described first clamping plate, and can move back and forth along the first direction of principal axis, to pass described grooved mouth, thus cutting is sandwiched in the angle surplus between described first clamping plate and described second clamping plate.

During above-mentioned angle shear device work, first make the first clamping plate and the second clamping plate clamp angle surplus, reusable heat melts cutter and crops the angle surplus be sandwiched between the first clamping plate and the second clamping plate, thus realizes automatic cutting shear angle surplus.

Wherein in an embodiment, described blowing assembly can also make exposing at least partly of the both side surface at the described angle of formation;

Described angle shear device also comprises vertical transmission component, described vertical transmission component comprises slide rail plate, described slide rail plate and described blowing assembly are oppositely arranged, to make described angle surplus between described slide rail plate and described blowing assembly, described slide rail plate can move along the second direction of principal axis toward and away from described blowing assembly;

Described first clamping plate, described second clamping plate and described hot melt cutter are all located at described slide rail plate on the surface of described blowing assembly;

When the exposed portion of described workpiece is between described first clamping plate and described second clamping plate, control described first clamping plate and described second clamping plate respectively towards described workpiece movable; When described first clamping plate contact with the both side surface of described workpiece respectively with described second clamping plate, control described slide rail plate simultaneously and move away from described blowing assembly, until described first clamping plate and described second clamping plate clamp described angle surplus; Now, control described hot melt cutter and move towards described second clamping plate, cut out described angle surplus through described grooved mouth.

Wherein in an embodiment, described first clamping plate have the first inclined-plane, described first inclined-plane is positioned at one end place of described first clamping plate away from described slide rail plate, described first clamping plate are the first binding face near the surface of described second clamping plate, described first binding face is connected with described first inclined-plane, and the angle between described first binding face and described first inclined-plane is obtuse angle;

Described second clamping plate have the second inclined-plane, described second inclined-plane is positioned at one end place of described second clamping plate away from described slide rail plate, described second clamping plate are the second binding face near the surface of described first clamping plate, described second binding face is connected with described second inclined-plane, and the angle between described second binding face and described second inclined-plane is obtuse angle.

Wherein in an embodiment, described vertical transmission component also comprises bearing roller, substrate, Y type lobe plate and supports compression piece;

Two described bearing rollers are located on described first clamping plate, and are positioned at outside the both sides of described slide rail plate, and the line of two described bearing rollers is vertical with described first axle and described second axle difference;

Two described bearing rollers are located on described second clamping plate, and are positioned at outside the both sides of described slide rail plate, and the line of two described bearing rollers is vertical with described first axle and described second axle difference;

Described substrate and described slide rail plate relative spacing are arranged, and be positioned at the side of described slide rail plate away from described blowing assembly, two blocks of described Y type lobe plates are located on the both sides of described substrate respectively, each Y type lobe plate is provided with two through holes, described two through holes are isolated by Y shaped bracket, the vertical bar of described Y shaped bracket is near described substrate, and four described bearing rollers are placed in four described through holes respectively;

Described support compression piece is connected with described slide rail plate, and when described slide rail plate is subject to towards power on described orientation substrate, described slide rail plate moves along the direction of described second axle away from described blowing assembly;

Wherein, when described first clamping plate contact with the exposed portion of described workpiece respectively with described second clamping plate, described bearing roller contacts with the brace of described Y shaped bracket; When described first clamping plate and described second clamping plate clamp the angle surplus of described workpiece, described bearing roller is positioned at the brace of described Y shaped bracket and vertical bar intersection.

Wherein in an embodiment, described support compression piece is slide rail plate cylinder;

Described vertical transmission component also comprises stay bearing plate, pillar stiffener and linear bearing, described stay bearing plate is positioned at the side of described substrate away from described slide rail plate, and be connected with the expansion link of described support compression piece, with under the driving of described support compression piece, move back and forth along the second direction of principal axis, described linear bearing is sheathed on described pillar stiffener, and described linear bearing is arranged on described substrate, described pillar stiffener one end is connected with described slide rail plate, and the other end is connected with described stay bearing plate.

Wherein in an embodiment, described vertical transmission component also comprises base plate, erection column and limiting stopper, described base plate is positioned at the side of described stay bearing plate away from described substrate, described support compression piece is located on described base plate, described erection column one end is located on described base plate, and the other end is through described stay bearing plate, and described limiting stopper is located on described erection column, and between described stay bearing plate and described substrate, for limiting the ultimate range of described stay bearing plate towards described substrate movement.

Wherein in an embodiment, also comprise at least one in following feature:

Described first clamping plate are formed by flexible material, damage because colliding with described first clamping plate to avoid described hot melt cutter; And

Described slide rail plate is provided with the slide rail extended along described first direction of principal axis near the surface of described blowing assembly; Described first clamp assemblies also comprises the first Transmission, described first Transmission comprises the first slide block, the first support and fixed block, described first slide block is located on described slide rail, described first is set up on described first slide block, described fixed block is located on described first support, and described first clamping plate are located on described fixed block.

Wherein in an embodiment, described first Transmission also comprises the first adapter plate, the first contiguous block and the first cylinder;

Described first contiguous block is connected with described first support, and the expansion link of described first cylinder is connected with described first contiguous block, moves back and forth along the first direction of principal axis for driving described first clamping plate;

Two pieces of described first adapter plates are located on described first support, and are positioned at outside the both sides of described slide rail plate, and each first adapter plate is provided with described bearing roller away from the side of described slide rail plate.

Wherein in an embodiment, described second clamp assemblies also comprises the second Transmission, and described second Transmission comprises the second cylinder be connected with described second clamping plate, and described second cylinder moves back and forth along the first direction of principal axis for driving described second clamping plate;

Described hot melt knife assembly also comprises the 3rd Transmission, the 3rd contiguous block that described 3rd Transmission comprises the 3rd cylinder and is connected with described 3rd cylinder, described hot melt cutter is located on described 3rd contiguous block, the expansion link of described 3rd cylinder is connected with described second clamping plate, moves back and forth along the first direction of principal axis for driving described hot melt cutter.

Wherein in an embodiment, described slide rail plate is provided with the slide rail extended along described first direction of principal axis near the surface of described blowing assembly;

Described second Transmission also comprises the second slide block, the second support, the second contiguous block and the second adapter plate, described second slide block is located on described slide rail, described second is set up on described second slide block, described second contiguous block is connected with described second support, the expansion link of described second cylinder is connected with described second contiguous block, two pieces of described second adapter plates are located on described second support, and be positioned at outside the both sides of described slide rail plate, and each second adapter plate is provided with described bearing roller away from the side of described slide rail plate;

Described 3rd Transmission also comprises the 3rd slide block, the 3rd support, cleading and heat insulating mattress, described 3rd slide block is located on described slide rail, described 3rd contiguous block is located on described 3rd slide block, described 3rd is set up on described 3rd contiguous block, described cleading is located on described 3rd support, described hot melt cutter is located on described cleading, and described heat insulating mattress is located on described hot melt cutter.

Accompanying drawing explanation

Fig. 1 is the structural representation of the angle shear device of an embodiment;

Fig. 2 is the structural representation that the angle shear device in Fig. 1 removes the visual angle after one block of Y type lobe plate;

Fig. 3 is the structural representation that the angle shear device in Fig. 1 removes another visual angle after one block of Y type lobe plate;

Fig. 4 is the schematic diagram that angle shear device in Fig. 1 is in initial condition;

Fig. 5 is the first inclined-plane and the second inclined-plane schematic diagram when fitting with the both side surface of workpiece respectively;

Fig. 6 is the first binding face and the second binding face schematic diagram when fitting;

Fig. 7 is that hot melt cutter is arranged in grooved mouth, and the schematic diagram contacted with the first clamping plate;

Fig. 8 is after box is loaded packaging bag, schematic diagram during non-package pack open end.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, angle shear device is described further.

As Figure 1-3, the angle shear device 10 of an embodiment comprises blowing assembly 11, first clamp assemblies 12, second clamp assemblies 13, hot melt knife assembly 14 and vertical transmission component 15.

Angle shear device 10 is for the angle surplus of cutting workpiece 20, wherein, workpiece 20 is for packaging the product in the object formed in plastic packaging bag, and the angle of workpiece 20 refers in the circumference of workpiece 20, the junction that adjacent both side surface angularly connects also is the line of adjacent both side surface.In the present embodiment, workpiece 20 is in cuboid, and have four angles in the circumferential, four angles place all has angle surplus.In other embodiments, workpiece 20 also only can have an angle, also can have more angle.

Blowing assembly 11 place work piece 20, and the angle of workpiece 20 is exposed, to expose the angle surplus being positioned at this angle place.

First clamp assemblies 12 comprises the first clamping plate 12a.First clamping plate 12a can move back and forth along the first direction of principal axis.

Second clamp assemblies 13 comprises the second clamping plate 13a.Second clamping plate 13a and the first clamping plate 12a just to setting, and can move back and forth along the first direction of principal axis, to coordinate holding angle surplus with described first clamp assemblies.Second clamping plate 13a is provided with grooved mouth 13a1.

Hot melt knife assembly 14 comprises hot melt cutter 14a.Hot melt cutter 14a is positioned at the side of the second clamping plate 13a away from the first clamping plate 12a, and can move back and forth along the first direction of principal axis, and to pass grooved mouth 13a1, thus cutting is sandwiched in the angle surplus between the first clamping plate 12a and the second clamping plate 13a.

When above-mentioned angle shear device 10 works, first make the first clamping plate 12a and the second clamping plate 13a clamp angle surplus, reusable heat melts cutter 14a and crops the angle surplus be sandwiched between the first clamping plate 12a and the second clamping plate 13a.Thus realize automatic cutting shear angle surplus.

In actual applications, workpiece 20 is except having angle surplus, and workpiece 20 also exists surplus in the part both side surface at angle, causes workpiece 20 surface irregularity.In order to solve the problem, vertical transmission component 15 is set, and make blowing assembly 11 can also make exposing at least partly of the both side surface at formation angle.

Concrete, in the present embodiment, blowing assembly 11 comprises adapter plate 11a, the first chute board 11b and the second chute board 11c.First chute board 11b and the second chute board 11c is located on the same surface of adapter plate 11a, and forms the workpiece slideway 11d with small one and large one two openings of bore.Wherein, the opening that workpiece slideway 11d is less is positioned at outside adapter plate 11a.Angle between first chute board 11b and the second chute board 11c can be identical with the angle between the both side surface of workpiece 20.When workpiece 20 is positioned in workpiece slideway 11d, workpiece 20 can glide because of gravity and the both side surface of workpiece 20 is partly fitted with the first chute board 11b and the second chute board 11c respectively, and the line place between this both side surface, also it is one jiao of workpiece 20, expose from the smaller opening of workpiece slideway 11d thus be positioned at outside workpiece slideway 11d, the part of this both side surface near this angle is also positioned at outside workpiece slideway 11d.

Vertical transmission component 15 moves towards or away from blowing assembly 11 along the second direction of principal axis (vertical direction) for controlling the first clamping plate 12a, the second clamping plate 13a and hot melt cutter 14a.Vertical transmission component 15 comprises slide rail plate 15a.Slide rail plate 15a and blowing assembly 11 are oppositely arranged, to make angle surplus between slide rail plate 15a and blowing assembly 11.Slide rail plate 15a can move along the second direction of principal axis toward and away from blowing assembly 11.First clamping plate 12a, the second clamping plate 13a and hot melt cutter 14a are all located at slide rail plate 15a on the surface of blowing assembly 11.

When the exposed portion of workpiece 20 is between the first clamping plate 12a and the second clamping plate 13a, control the first clamping plate 12a and the second clamping plate 13a moves towards workpiece 20 respectively.When the first clamping plate 12a contacts with the both side surface of workpiece 20 respectively with the second clamping plate 13a, control slide rail plate 15a simultaneously and move away from blowing assembly 11, until the first clamping plate 12a and the second clamping plate 13a holding angle surplus.Now, control hot melt cutter 14a and move towards the second clamping plate 13a, through grooved mouth 13a1 and cutting angle surplus.

Owing to being provided with vertical transmission component 15, thus in motion after the first clamping plate 12a and the second clamping plate 13a contacts with the both side surface of workpiece 20, first clamping plate 12a and the second clamping plate 13a contacts with the side surface of workpiece 20 all the time, thus first can carry out the surplus of the packaging bag on flat workpiece 20 surface, also namely the surplus of the packaging bag on workpiece 20 surface can be passed between the first clamping plate 12a and the second clamping plate 13a, again together with the surplus of angle cropped fall, thus make workpiece 20 surfacing.

The contact of the both side surface of the first clamping plate 12a and the second clamping plate 13a and workpiece 20 can be linear contact lay, also can contact for face, in the present embodiment, is preferably face contact.

Concrete, the first clamping plate 12a has the first inclined-plane 12a1, and the first inclined-plane 12a1 is positioned at one end place of the first clamping plate 12a away from slide rail plate 15a.First clamping plate 12a is the first binding face 12a2 near the surface of the second clamping plate 13a.First binding face 12a2 is connected with the first inclined-plane 12a1, and the angle between the first binding face 12a2 and the first inclined-plane 12a1 is obtuse angle.Concrete, in the present embodiment, the angle between the first binding face 12a2 and the first inclined-plane 12a1 is 135 °.

Second clamping plate 13a has the second inclined-plane 13a1, and the second inclined-plane 13a1 is positioned at one end place of the second clamping plate 13a away from slide rail plate 15a.Second clamping plate 13a is the second binding face 13a2 near the surface of the first clamping plate 12a, and the second binding face 13a2 is connected with the second inclined-plane 13a1, and the angle between the second binding face 13a2 and the second inclined-plane 13a1 is obtuse angle.Concrete, in the present embodiment, the angle between the second binding face 13a2 and the second inclined-plane 13a1 is 135 °.

How the vertical transmission component 15 of lower mask body introduction controls slide rail plate 15a is moved along the second direction of principal axis.

Vertical transmission component 15 also comprises bearing roller 510, substrate 520, Y type lobe plate 530 and supports compression piece 540.

Two bearing rollers 510 are located on the first clamping plate 12a, and are positioned at outside the both sides of slide rail plate 15a, and the line of two bearing rollers 510 is vertical with the first axle and the second axle difference.

Two bearing rollers 510 are located on the second clamping plate 13a, and are positioned at outside the both sides of slide rail plate 15a, and the line of two bearing rollers 510 is vertical with the first axle and the second axle difference.

Substrate 520 and slide rail plate 15a relative spacing are arranged, and are positioned at the side of slide rail plate 15a away from blowing assembly 11.Two blocks of Y type lobe plates 530 are located on the both sides of substrate 520 respectively.Each Y type lobe plate 530 is provided with two through holes, 532, two through holes 532 is isolated by Y shaped bracket 534, and the vertical bar 5342 of Y shaped bracket 534 is near substrate 520.Four bearing rollers 510 are placed in four through holes 532 respectively.

Support compression piece 540 to be connected with slide rail plate 15a.When slide rail plate 15a is subject to towards power on substrate 520 direction, slide rail plate 15a moves along the direction of the second axle away from blowing assembly 11.

Wherein, when the first clamping plate 12a contacts with the exposed portion of workpiece respectively with the second clamping plate 13a, bearing roller 510 contacts with the brace 5344 of Y shaped bracket 534.When the angle surplus of the first clamping plate 12a and the second clamping plate 13a holding workpiece 20, bearing roller 510 is positioned at the brace 5344 of Y shaped bracket 534 and vertical bar 5342 intersection.

When bearing roller 510, substrate 520, Y type lobe plate 530 and support compression piece 540 cooperating, supporting compression piece 540 can be that slide rail plate 15a provides support power, thus the interval making slide rail plate 15a and blowing assembly 11 keep suitable (angle surplus can be made to fall between the first clamping plate 12a and the second clamping plate 13a).After bearing roller 510 contacts with the brace 5344 of Y shaped bracket 534, first clamping plate 12a and the second clamping plate 13a continues move toward one another, the brace 5344 of bearing roller 510 pairs of Y shaped brackets 534 can be made to apply power, thus slide rail plate 15a is subject to towards the power on substrate 520 direction, and then slide rail plate 15a is moved away from blowing assembly 11 along the direction of the second axle.

In above-mentioned situation, the move toward one another of the first clamping plate 12a and the second clamping plate 13a applies power to slide rail plate 15a, slide rail plate 15a drives and supports compression piece 540 and move, and also namely controlling the propulsion source that the first clamping plate 12a and the second clamping plate 13a moves is active force, and support compression piece 540 is from power.Now, supporting compression piece 540 can be that spring etc. supports compressing member.

In the present embodiment, support compression piece 540 and be preferably slide rail plate cylinder.When needs provide support power for slide rail plate 15a, the piston supporting compression piece 540 stretches out; After the brace 5344 applying power of bearing roller 510 pairs of Y shaped brackets 534, the piston supporting compression piece 540 can shrink.Also namely supporting compression piece 540 is from power.

Be appreciated that in other embodiments, supporting compression piece 540 also can be active force.Now, support compression piece 540 and slide rail plate 15a can be driven to move, and then drive the first static clamping plate 12a and the second clamping plate 13a to move.

In order to coordinate the application supporting compression piece 540, in the present embodiment, vertical transmission component 15 also comprises stay bearing plate 550, pillar stiffener 560 and linear bearing 570.Stay bearing plate 550 is positioned at the side of substrate 520 away from slide rail plate 15a, and is connected with the expansion link supporting compression piece 540, with under the driving supporting compression piece 540, moves back and forth along the second direction of principal axis.Linear bearing 570 is sheathed on pillar stiffener 560.Linear bearing 570 is arranged on substrate 520.Pillar stiffener 560 one end is connected with slide rail plate 15a, and the other end is connected with stay bearing plate 550.

Further, in the present embodiment, vertical transmission component 15 also comprises base plate 580, erection column 592 and limiting stopper 594.Base plate 580 is positioned at the side of stay bearing plate 550 away from substrate 520.Support compression piece 540 to be located on base plate 580.Erection column 592 one end is located on base plate 580, and the other end is through stay bearing plate 550.Limiting stopper 594 is located on erection column 592, and between stay bearing plate 550 and substrate 520, for limiting the ultimate range of stay bearing plate 550 towards substrate 520 movement.

Further, in the present embodiment, base plate 580 side is provided with connecting panel 582, and base plate 580 is connected with adapter plate 11a by connecting panel 582.

Further, in the present embodiment, the first clamping plate 12a is formed by flexible material, thus hot melt cutter 14a can be avoided to damage because colliding with the first clamping plate 12a.Concrete, in the present embodiment, the first clamping plate 12a is cotton clamping plate.

Further, in the present embodiment, slide rail plate 15a is provided with the slide rail 15a1 extended along the first direction of principal axis near the surface of blowing assembly 11.

First clamp assemblies 12 also comprises the first Transmission 200.First Transmission 200 moves back and forth along the first direction of principal axis for driving the first clamping plate 12a.

First Transmission 200 comprises the first slide block 210, first support 220 and fixed block 230.First slide block 210 is located on slide rail 15a1.First support 220 is located on the first slide block 210.Fixed block 230 is located on the first support 220.First clamping plate 12a is located on fixed block 230.

Further, in the present embodiment, the first Transmission 200 also comprises the first adapter plate 240, first contiguous block 250 and the first cylinder 260.First contiguous block 250 is connected with the first support 220.The expansion link of the first cylinder 260 is connected with the first contiguous block 250, moves back and forth along the first direction of principal axis for driving the first clamping plate 12a.Two piece of first adapter plate 240 is located on the first support 220, and is positioned at outside the both sides of slide rail plate 15a, and each first adapter plate 240 is provided with bearing roller 510 away from the side of slide rail plate 15a.

Second clamp assemblies 13 also comprises the second Transmission 300.Second Transmission 300 moves back and forth along the first direction of principal axis for driving the second clamping plate 13a.Concrete, the second Transmission 300 comprises the second cylinder 310, second cylinder 310 be connected with the second clamping plate 13a and moves back and forth along the first direction of principal axis for driving the second clamping plate 13a.

Hot melt knife assembly 14 also comprises the 3rd Transmission 400.3rd Transmission 400 moves back and forth along the first direction of principal axis for driving hot melt cutter 14a.Concrete, the 3rd contiguous block 420 that the 3rd Transmission 400 comprises the 3rd cylinder 410 and is connected with the 3rd cylinder 410.Hot melt cutter 14a is located on the 3rd contiguous block 420.The expansion link 412 of the 3rd cylinder 410 is connected with the second clamping plate 13a, moves back and forth along the first direction of principal axis for driving hot melt cutter 14a.

Further, in the present embodiment, the second Transmission 300 also comprises the second slide block 320, second support 330, second contiguous block 340 and the second adapter plate 350.Second slide block 320 is located on slide rail 13a1.Second support 330 is located on the second slide block 320.Second contiguous block 340 is connected with the second support 330.The expansion link of the second cylinder 310 is connected with the second contiguous block 340.Two piece of second adapter plate 350 is located on the second support 330, and is positioned at outside the both sides of slide rail plate 15a, and each second adapter plate 350 is provided with bearing roller 510 away from the side of slide rail plate 15a.

3rd Transmission 400 also comprises the 3rd slide block 430, the 3rd support 440, cleading 450 and heat insulating mattress 460.3rd slide block 430 is located on slide rail 13a1.3rd contiguous block 420 is located on the 3rd slide block 430.3rd support 440 is located on the 3rd contiguous block 420.Cleading 450 is located on the 3rd support 440.Hot melt cutter 14a is located on cleading 450.Heat insulating mattress 460 is located on hot melt cutter 14a.

Concrete, in the present embodiment, Figure 4 shows that above-mentioned angle shear device 10 is in the schematic diagram of initial condition.When initial condition, support compression piece 540 and stretch out, thus make, between slide rail plate 15a and blowing assembly 11, there is suitable spacing; The piston retraction of the first cylinder 260 and the second cylinder 310, thus make, between the first clamping plate 12a and the second clamping plate 13a, there is larger spacing; The piston of the 3rd cylinder 410 stretches out, thus makes to have larger spacing between the second clamping plate 13a and hot melt cutter 14a.

Then the piston of the first cylinder 260 and the second cylinder 310 stretches out, thus the spacing between the first clamping plate 12a and the second clamping plate 13a is reduced, until as shown in Figure 5, first inclined-plane 12a1 and the second inclined-plane 13a2 fits with the both side surface of workpiece respectively, now, bearing roller 510 contacts with the brace 5342 of Y shaped bracket 534.

Then the piston of the first cylinder 260 and the second cylinder 310 continues to stretch out, thus make the spacing between the first clamping plate 12a and the second clamping plate 13a continue to reduce, now, bearing roller 510 pairs of Y shaped brackets 534 apply power, make the piston retraction supporting compression piece 540, thus slide rail plate 15a is moved away from blowing assembly 11, until as shown in Figure 6, first binding face 12a2 and the second binding face 13a3 fits, and bearing roller 510 is positioned at the brace 5342 of Y shaped bracket 534 and vertical bar 5344 intersection.

The piston retraction of last 3rd cylinder 410, hot melt cutter 14a moves towards the second clamping plate 13a, until as shown in Figure 7, hot melt cutter 14a is arranged in grooved mouth 13a1, and contacts with the first clamping plate 12a, and now, angle surplus is excised by hot melt cutter 14a.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this specification sheets is recorded.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. an angle shear device, for the angle surplus of cutting workpiece, described workpiece is package the product in the object formed in plastic packaging bag, the number at the angle of described workpiece is more than or equal to one, the angle of described workpiece refers in the circumference of described workpiece, the junction that adjacent both side surface angularly connects, is characterized in that, comprising:

Blowing assembly, for placing described workpiece, and makes described workpiece angle expose, to expose the angle surplus at this angle place;

First clamp assemblies, comprises the first clamping plate, and described first clamping plate can move back and forth along the first direction of principal axis;

Second clamp assemblies, comprises the second clamping plate, and described second clamping plate and described first clamping plate just to setting, and can move back and forth along the first direction of principal axis, and clamp described angle surplus to coordinate with described first clamp assemblies, described second clamping plate are provided with grooved mouth; And

Hot melt knife assembly, comprise hot melt cutter, described hot melt cutter spacing in the side of described second clamping plate away from described first clamping plate, and can move back and forth along the first direction of principal axis, to pass described grooved mouth, thus cutting is sandwiched in the angle surplus between described first clamping plate and described second clamping plate.

2. angle shear device according to claim 1, is characterized in that, described blowing assembly can also make exposing at least partly of the both side surface at the described angle of formation;

Described angle shear device also comprises vertical transmission component, described vertical transmission component comprises slide rail plate, described slide rail plate and described blowing assembly are oppositely arranged, to make described angle surplus between described slide rail plate and described blowing assembly, described slide rail plate can move along the second direction of principal axis toward and away from described blowing assembly;

Described first clamping plate, described second clamping plate and described hot melt cutter are all located at described slide rail plate on the surface of described blowing assembly;

When the exposed portion of described workpiece is between described first clamping plate and described second clamping plate, control described first clamping plate and described second clamping plate respectively towards described workpiece movable; When described first clamping plate contact with the both side surface of described workpiece respectively with described second clamping plate, control described slide rail plate simultaneously and move away from described blowing assembly, until described first clamping plate and described second clamping plate clamp described angle surplus; Now, control described hot melt cutter and move towards described second clamping plate, cut out described angle surplus through described grooved mouth.

3. angle shear device according to claim 2, it is characterized in that, described first clamping plate have the first inclined-plane, described first inclined-plane is positioned at one end place of described first clamping plate away from described slide rail plate, described first clamping plate are the first binding face near the surface of described second clamping plate, described first binding face is connected with described first inclined-plane, and the angle between described first binding face and described first inclined-plane is obtuse angle;

Described second clamping plate have the second inclined-plane, described second inclined-plane is positioned at one end place of described second clamping plate away from described slide rail plate, described second clamping plate are the second binding face near the surface of described first clamping plate, described second binding face is connected with described second inclined-plane, and the angle between described second binding face and described second inclined-plane is obtuse angle.

4. angle shear device according to claim 2, is characterized in that, described vertical transmission component also comprises bearing roller, substrate, Y type lobe plate and supports compression piece;

Two described bearing rollers are located on described first clamping plate, and are positioned at outside the both sides of described slide rail plate, and the line of two described bearing rollers is vertical with described first axle and described second axle difference;

Two described bearing rollers are located on described second clamping plate, and are positioned at outside the both sides of described slide rail plate, and the line of two described bearing rollers is vertical with described first axle and described second axle difference;

Described substrate and described slide rail plate relative spacing are arranged, and be positioned at the side of described slide rail plate away from described blowing assembly, two blocks of described Y type lobe plates are located on the both sides of described substrate respectively, each Y type lobe plate is provided with two through holes, described two through holes are isolated by Y shaped bracket, the vertical bar of described Y shaped bracket is near described substrate, and four described bearing rollers are placed in four described through holes respectively;

Described support compression piece is connected with described slide rail plate, and when described slide rail plate is subject to towards power on described orientation substrate, described slide rail plate moves along the direction of described second axle away from described blowing assembly;

Wherein, when described first clamping plate contact with the exposed portion of described workpiece respectively with described second clamping plate, described bearing roller contacts with the brace of described Y shaped bracket; When described first clamping plate and described second clamping plate clamp the angle surplus of described workpiece, described bearing roller is positioned at the brace of described Y shaped bracket and vertical bar intersection.

5. angle shear device according to claim 4, is characterized in that, described support compression piece is slide rail plate cylinder;

Described vertical transmission component also comprises stay bearing plate, pillar stiffener and linear bearing, described stay bearing plate is positioned at the side of described substrate away from described slide rail plate, and be connected with the expansion link of described support compression piece, with under the driving of described support compression piece, move back and forth along the second direction of principal axis, described linear bearing is sheathed on described pillar stiffener, and described linear bearing is arranged on described substrate, described pillar stiffener one end is connected with described slide rail plate, and the other end is connected with described stay bearing plate.

6. angle shear device according to claim 5, it is characterized in that, described vertical transmission component also comprises base plate, erection column and limiting stopper, described base plate is positioned at the side of described stay bearing plate away from described substrate, described support compression piece is located on described base plate, described erection column one end is located on described base plate, the other end is through described stay bearing plate, described limiting stopper is located on described erection column, and between described stay bearing plate and described substrate, for limiting the ultimate range of described stay bearing plate towards described substrate movement.

7. angle shear device according to claim 4, is characterized in that, also comprises at least one in following feature:

Described first clamping plate are formed by flexible material, damage because colliding with described first clamping plate to avoid described hot melt cutter; And

Described slide rail plate is provided with the slide rail extended along described first direction of principal axis near the surface of described blowing assembly; Described first clamp assemblies also comprises the first Transmission, described first Transmission comprises the first slide block, the first support and fixed block, described first slide block is located on described slide rail, described first is set up on described first slide block, described fixed block is located on described first support, and described first clamping plate are located on described fixed block.

8. angle shear device according to claim 7, is characterized in that, described first Transmission also comprises the first adapter plate, the first contiguous block and the first cylinder;

Described first contiguous block is connected with described first support, and the expansion link of described first cylinder is connected with described first contiguous block, moves back and forth along the first direction of principal axis for driving described first clamping plate;

Two pieces of described first adapter plates are located on described first support, and are positioned at outside the both sides of described slide rail plate, and each first adapter plate is provided with described bearing roller away from the side of described slide rail plate.

9. angle shear device according to claim 4, it is characterized in that, described second clamp assemblies also comprises the second Transmission, and described second Transmission comprises the second cylinder be connected with described second clamping plate, and described second cylinder moves back and forth along the first direction of principal axis for driving described second clamping plate;

Described hot melt knife assembly also comprises the 3rd Transmission, the 3rd contiguous block that described 3rd Transmission comprises the 3rd cylinder and is connected with described 3rd cylinder, described hot melt cutter is located on described 3rd contiguous block, the expansion link of described 3rd cylinder is connected with described second clamping plate, moves back and forth along the first direction of principal axis for driving described hot melt cutter.

10. angle shear device according to claim 9, is characterized in that, described slide rail plate is provided with the slide rail extended along described first direction of principal axis near the surface of described blowing assembly;

Described second Transmission also comprises the second slide block, the second support, the second contiguous block and the second adapter plate, described second slide block is located on described slide rail, described second is set up on described second slide block, described second contiguous block is connected with described second support, the expansion link of described second cylinder is connected with described second contiguous block, two pieces of described second adapter plates are located on described second support, and be positioned at outside the both sides of described slide rail plate, and each second adapter plate is provided with described bearing roller away from the side of described slide rail plate;

Described 3rd Transmission also comprises the 3rd slide block, the 3rd support, cleading and heat insulating mattress, described 3rd slide block is located on described slide rail, described 3rd contiguous block is located on described 3rd slide block, described 3rd is set up on described 3rd contiguous block, described cleading is located on described 3rd support, described hot melt cutter is located on described cleading, and described heat insulating mattress is located on described hot melt cutter.