CN213918459U - Cutting device is used in combined material production - Google Patents

Abstract

The utility model discloses a cutting device for composite material production, which comprises a conveying belt for conveying composite materials, wherein linkage stepping tracks moving at fixed distances along the extension direction of the conveying belt are installed at two sides of the conveying belt, track traversing frames transversely moving above the conveying belt are installed on the linkage stepping tracks, and diversion cutting devices for conducting diversion cutting on the composite materials on the conveying belt are installed on the track traversing frames, and are used for conducting intermittent longitudinal cutting and transverse cutting on the composite materials through diversion cutting to form a plurality of rectangular composite materials, two groups of cutting devices with mutually vertical cutting directions are installed on a disc, cutters of the cutting devices with different cutting directions are always aligned to the same position through controlling the disc to rotate, the accuracy after switching properties is improved, and then the linkage stepping tracks are matched to conduct multidirectional cutting on laid composite materials, rectangular composites can be cut.

Description

Cutting device is used in combined material production

Technical Field

The utility model relates to a cutting device technical field, concretely relates to blank device is used in combined material production.

Background

In the production process of the composite material, the composite material is required to be firstly stacked on a conveyor belt for multiple layers and then transported by using the conveyor belt, the stacked and laid composite material is required to be cut and tailored by a cutting device, and the composite material blocks with corresponding sizes are processed, so that the subsequent processing device can process the composite material blocks conveniently.

At present, a cutting device arranged on a conveyor belt device is generally adopted to horizontally cut the laid composite material, and when the laid composite material is cut, the cutting device is matched with cutting tools with different cutting directions for switching use.

However, most of the existing cutters arranged on the conveying belt device generally install cutters in different positions in all directions, and the cutter setting is realized by controlling the linkage track to increase variables, so that under the condition of error of each track or data error, the accuracy of a cutting part is reduced after the cutters are switched, and the problems that the heads and the tails of a plurality of cutting lines for cutting composite materials cannot be butted and the composite material blocks are locally adhered in the follow-up cutting process can be caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a blank device is used in combined material production to cutting position degree of accuracy reduces technical problem behind the cutting device switching cutter among the solution prior art.

In order to solve the above technical problem, the utility model particularly provides the following technical scheme:

the utility model provides a blank device is used in combined material production, is including the conveyer belt that is used for transporting combined material, the edge is installed to the both sides of conveyer belt the step-by-step track of linkage that the conveyer belt extending direction distance removed, install the edge on the step-by-step track the track sideslip frame of conveyer belt top lateral shifting, install the diversion cutting on the track sideslip frame combined material's diversion cutting device on the conveyer belt, diversion cutting device carries out longitudinal cutting and the lateral shifting of intermittent type nature to combined material through the diversion cutting and forms a plurality of rectangle combined material.

As an optimized scheme of the utility model, install including turning cutting device the track mount pad of track sideslip frame side, the side-mounting of track mount pad has the cutter installation carousel through rotating the switching cutting form, the internally mounted of track mount pad have with the meshing of cutter installation carousel outside and drive cutter installation carousel pivoted carousel external gearing motor, install the flexible actuating mechanism of cutting that stretches out or retracts the cutting position through two-way rotation on the cutter installation carousel.

As a preferred scheme of the utility model, two are installed in the outside of cutter installation carousel about the articulated frame of taking that cutter installation carousel center pin line symmetry set up, and two the articulated inside of taking the frame is installed respectively and is cut the direction vertically and move towards cutting device more.

As a preferred scheme of the utility model, articulated carrier includes fixed mounting and is in the cutter installation carousel outside link firmly the swivel mount, and link firmly to rotate on the swivel mount and be connected with outside extension perpendicular bull stick, install the level on the perpendicular bull stick and carry on many orientation cutting device and supply many orientation cutting device's flexible interior rectangular slide cartridge.

As an optimized scheme of the utility model, many orientation cutting device includes the edge the flexible rectangle hinge bar of interior rectangle slide cartridge, and the edge is installed to the front end of rectangle hinge bar the fixed hobbing cutter mounting bracket is rotated in the rectangle hinge bar outside, install the roll extrusion circular knife that is used for hobbing combined material on the hobbing cutter mounting bracket.

As an optimized scheme of the utility model, the flexible actuating mechanism of cutting includes with two the articulated hinge rod drive disc of rectangle hinge rod tail end, and install cutter installation carousel inboard step motor, step motor's output is installed and is extended to the hinge rod drive disc central point puts and drives hinge rod drive disc pivoted transfer line, the transfer line is through the drive hinge rod drive disc both-way rotation draws in or expands two sets of in step more towards cutting device.

Compared with the prior art, the utility model following beneficial effect has:

two groups of cutting devices with mutually vertical cutting directions are arranged on the disc, cutters of the cutting devices with different cutting directions are switched to be always aligned to the same position by controlling the disc to rotate, the accuracy after the props are switched is improved, the laid composite material is cut in multiple directions by matching with a linkage stepping track, the rectangular composite material can be cut,

in addition, the two groups of cutting devices are controlled to stretch by controlling the rotation of the disc, so that the moving device for controlling the main body of the cutting device is not required to be provided with a track which moves up and down, the error of the cutting device for cutting the depth of the composite material is reduced, and the manufacturing cost of the device is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a top view of the whole of an embodiment of the present invention;

fig. 2 is a schematic connection diagram of a direction-changing cutting device according to an embodiment of the present invention;

fig. 3 is an expanded schematic view of a multi-directional cutting device according to an embodiment of the present invention;

fig. 4 is a drawing schematic view of the multi-directional cutting device according to the embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-a conveyor belt; 2-linkage stepping track; 3-track cross sliding frame; 4-a direction-changing cutting device;

41-rail mounting seat; 42-cutter mounting turntable; 43-motor engaged outside the turntable; 44-cutting telescopic driving mechanism;

421-hinged carrying frame; 422-multi-orientation cutting means;

4211-fixedly connecting a rotating seat; 4212-vertical rotating rod; 4213-inner rectangular sliding cylinder; 4221-rectangular hinged bar; 4222-hob mounting rack; 4223-rolling circular knife;

441-an articulated rod drive disc; 442-a stepper motor; 443-driving rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the utility model provides a blank device is used in combined material production, including the conveyer belt 1 that is used for transporting combined material, the step-by-step track 2 of linkage along 1 extending direction distance removal of conveyer belt is installed to the both sides of conveyer belt 1, installs the track sideslip frame 3 along 1 top lateral shifting of conveyer belt on the step-by-step track 2 of linkage, installs combined material's diversion cutting device 4 on the diversion cutting conveyer belt 1 on the track sideslip frame 3, diversion cutting device 4 carries out intermittent type nature longitudinal cutting and lateral cutting to combined material through the diversion cutting and forms a plurality of rectangle combined material.

The turning cutting device 4 comprises a rail mounting seat 41 arranged on the side surface of the rail traversing frame 3, a cutter mounting turntable 42 for switching cutting forms through rotation is arranged on the side surface of the rail mounting seat 41, a turntable external meshing motor 43 which is meshed with the outer side of the cutter mounting turntable 42 and drives the cutter mounting turntable 42 to rotate is arranged inside the rail mounting seat 41, and a cutting telescopic driving mechanism 44 for extending out or retracting a cutting part through bidirectional rotation is arranged on the cutter mounting turntable 42.

Two hinged carrying frames 421 symmetrically arranged about the central axis of the cutter mounting turntable 42 are mounted on the outer side of the cutter mounting turntable 42, and multi-directional cutting devices 422 with vertical cutting directions are respectively mounted inside the two hinged carrying frames 421.

The hinged carrying frame 421 comprises a fixed rotation seat 4211 fixedly installed on the outer side of the cutter installation turntable 42, a vertical rotation rod 4212 extending outwards is rotatably connected to the fixed rotation seat 4211, and an inner rectangular sliding cylinder 4213 which carries the multi-direction cutting device 422 horizontally and allows the multi-direction cutting device 422 to stretch and retract is installed on the vertical rotation rod 4212.

The multi-directional cutting device 422 comprises a rectangular hinge rod 4221 which extends and retracts along an inner rectangular sliding barrel 4213, a hob mounting rack 4222 which is rotationally fixed along the outer side of the rectangular hinge rod 4221 is mounted at the front end of the rectangular hinge rod 4221, and a rolling circular knife 4223 for rolling and cutting composite materials is mounted on the hob mounting rack 4222.

The cutting telescopic driving mechanism 44 comprises a hinged rod driving disc 441 hinged with the tail ends of the two rectangular hinged rods 4221, and a stepping motor 442 installed inside the cutter mounting turntable 42, wherein the output end of the stepping motor 442 is provided with a driving rod 443 which extends to the center of the hinged rod driving disc 441 and drives the hinged rod driving disc 441 to rotate, and the driving rod 443 synchronously folds or unfolds the two groups of multi-directional cutting devices 422 by driving the hinged rod driving disc 441 to rotate bidirectionally.

When the device is used, the conveying belt 1 is operated to convey the composite material laid on the conveying belt to the position of the linkage stepping track 2, the conveying belt 1 is controlled to stop at the moment, the composite material placed on the conveying belt 1 does not move any more, the linkage stepping track 2 is controlled to start to operate at the moment, the movable track transverse frame 3 and the turning cutting device 4 move to the edge of the front end of the composite material along the direction of the conveying belt 1, then the turning cutting device 4 is driven to move to the edge of the side edge of the composite material along the track transverse frame 3, and finally the rolling circular knife 4223 is aligned to the corresponding position on the corner of the composite material after the turning cutting device 4 is controlled to be unfolded, so that the cutting device finishes tool setting integrally.

When the hinge rod transmission disc 441 rotates to drive the rectangular hinge rod 4221 to extend and retract, the rectangular hinge rod 4221 slides along the inner side of the inner rectangular sliding cylinder 4213 in the extending and retracting process, and drives the inner rectangular sliding cylinder 4213 and the vertical rotating rod 4212 to rotate along the fixed rotation seat 4211 in the extending and retracting process of the rectangular hinge rod 4221, so that the rectangular hinge rod 4221 is always in a horizontal state in the extending and retracting process.

After the tool setting is completed, the stepping motor 442 of the cutting telescopic driving mechanism 44 is controlled to drive the transmission rod 443 and the hinged rod transmission disk 441 to rotate, the hinged rod transmission disk 441 rotates and drives the two groups of multi-direction cutting devices 422 hinged with the hinged rod transmission disk to extend and retract along the hinged carrying frame 421, and the rotating amplitude of the hinged rod transmission disk 441 is controlled by setting the stepping motor 442 in advance to adjust the depth of the composite material cut by the rolling circular knife 4223 of the multi-direction cutting device 422.

At this time, the rolling circular knife 4223, the cutting direction of which is parallel to the extending direction of the conveyor belt 1, is pressed down to cut the composite material under the action of the hinged rod transmission disc 441, when the linkage stepping track 2 drives the track traversing frame 3 to move, the rolling circular knife 4223 can be driven to cut the composite material, and when the rolling circular knife 4223 moves to an area which is not required to be cut on the composite material, the stepping motor 442 is controlled to drive the hinged rod transmission disc 441 to rotate reversely to drive the height of the rolling circular knife 4223 to rise, then the stepping motor 442 is controlled to intermittently extend and retract towards the cutting device 422 according to the corresponding cutting position on the composite material, so that intermittent lines are cut on the side edge of the composite material, and finally intermittent lines are cut on the other side edge of the composite material according to the above steps, so that the cutting of the two side edges of the composite material is completed.

After the two side edges of the composite material are cut, the cutter mounting turntable 42 is driven to rotate to the other group of multi-direction cutting devices 422 to face downwards by controlling the turntable external meshing motor 43, and the cutting direction of the rolling circular cutters 4223 of the group of multi-direction cutting devices 422 is vertical to the extension direction of the conveying belt 1, so that the composite material is cut into a plurality of rectangular composite material blocks which are distributed at equal intervals by controlling the track traversing frame 3 to transversely move along the conveying belt 1 and matching with intermittent lines on the two sides of the composite material before cutting.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (6)

1. A blank device is used in combined material production, includes conveyer belt (1) that is used for transporting combined material, its characterized in that: the both sides of conveyer belt (1) are installed and are followed the step-by-step track of linkage (2) that conveyer belt (1) extending direction distance removed, install the edge on the step-by-step track of linkage (2) conveyer belt (1) top lateral shifting's track sideslip frame (3), install the diversion cutting on the track sideslip frame (3) composite's diversion cutting device (4) is gone up in conveyer belt (1), diversion cutting device (4) carry out longitudinal cutting and the transverse cutting of intermittent type nature to composite through the diversion cutting and form a plurality of rectangle composites.

2. The blanking device for composite material production according to claim 1, characterized in that: the utility model discloses a cutting machine, including installing of diversion cutting device (4) track mount pad (41) of track sideslip frame (3) side, the side-mounting of track mount pad (41) has cutter installation carousel (42) through rotating the switching cutting form, the internally mounted of track mount pad (41) have with cutter installation carousel (42) outside meshing and the drive cutter installation carousel (42) pivoted carousel external gearing motor (43), install on cutter installation carousel (42) and stretch out or retract cutting position's cutting telescopic drive mechanism (44) through two-way rotation.

3. The blanking device for composite material production according to claim 2, characterized in that: two articulated carrying frames (421) that about cutter installation carousel (42) center axis symmetry set up are installed to the outside of cutter installation carousel (42), and two articulated carrying frame (421) inside is installed respectively and is cut the direction vertically and move towards cutting device (422) more.

4. The blanking device for composite material production according to claim 3, characterized in that: articulated carrier (421) of taking on includes fixed mounting link swivel mount (4211) outside cutter installation carousel (42), and link firmly on swivel mount (4211) and rotate and be connected with outside perpendicular bull stick (4212) that extends, install the level on perpendicular bull stick (4212) and carry on many orientation cutting device (422) and confession many interior rectangular slide cartridge (4213) flexible towards cutting device (422).

5. The blanking device for composite material production according to claim 4, wherein: the multi-directional cutting device (422) comprises a rectangular hinge rod (4221) which stretches along the inner rectangular sliding barrel (4213), the front end of the rectangular hinge rod (4221) is provided with a hob mounting frame (4222) which is fixed in a rotating mode along the outer side of the rectangular hinge rod (4221), and a rolling circular knife (4223) for rolling and cutting composite materials is mounted on the hob mounting frame (4222).

6. The blanking device for composite material production according to claim 5, wherein: the cutting telescopic driving mechanism (44) comprises a hinged rod driving disc (441) hinged with the tail ends of the two rectangular hinged rods (4221) and a stepping motor (442) installed on the inner side of the cutter installation turntable (42), a driving rod (443) which extends to the center of the hinged rod driving disc (441) and drives the hinged rod driving disc (441) to rotate is installed at the output end of the stepping motor (442), and the driving rod (443) drives the hinged rod driving disc (441) to rotate in two directions to synchronously fold or unfold two groups of multi-direction cutting devices (422).

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