CN223545293U - Multifunctional on-line automatic cutting differential cutter - Google Patents

Abstract

This utility model relates to the technical field of electronic material processing, and in particular to a multifunctional online automatic micro-cutting knife, which improves cutting efficiency, reduces labor costs, and improves cutting accuracy. It includes: a main support, independently fixedly installed; a cutting mechanism, installed on the main support, used for cutting electronic materials; and a positioning and guiding mechanism, installed on the cutting mechanism, used for guiding the material. The cutting mechanism further includes: an adjusting support, fixedly connected to the main support; a first slide block, slidably mounted on the adjusting support; a transmission block, fixedly installed on the first slide block; a bearing support plate, fixedly installed on the adjusting support; an adjusting handle, rotatably mounted on the bearing support plate; an adjusting screw, fixedly connected to the adjusting handle, and threadedly inserted into the transmission block; a second slide block, slidably mounted on the first slide block, the sliding direction of the second slide block being perpendicular to the sliding direction of the first slide block; and an adjusting bolt, rotatably mounted on the first slide block.

Description

Multifunctional on-line automatic cutting differential cutter

Technical Field

The utility model relates to the technical field of electronic material processing, in particular to a multifunctional online automatic cutting differential cutter.

Background

In the current electronic materials processing industry, cutting of materials is a critical and frequently performed process. Traditional cutting mode often needs the manual work to carry the material to cutting equipment department, cuts through manual or semi-automatic equipment, and such process is not only inefficiency, has still increased the cost of labor, simultaneously because the error of manual operation, the cutting accuracy also can't obtain stable assurance. Because the application demands of different electronic materials, the width of the materials often needs to be adjusted according to actual use conditions, the traditional cutting mode is complicated when changing the cutting specification, and the traditional cutting mode is difficult to quickly adapt to diversified production demands, so that the production efficiency is low.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the multifunctional online automatic cutting differential cutter which improves the cutting efficiency, reduces the labor cost and improves the cutting precision.

The utility model relates to a multifunctional online automatic cutting differential cutter, which comprises the following components:

the main body support is independently and fixedly arranged;

The cutting mechanism is arranged on the main body support and is used for cutting the electronic material;

The positioning and guiding mechanism is arranged on the cutting mechanism and used for guiding materials;

Wherein, cutting mechanism still includes:

The adjusting support is fixedly connected with the main body support;

the first sliding seat is clamped on the adjusting support in a sliding manner;

the transmission block is fixedly arranged on the first sliding seat;

the bearing support plate is fixedly arranged on the adjusting support;

The adjusting handle is rotatably arranged on the bearing support plate;

the adjusting screw is fixedly connected with the adjusting handle and is inserted on the transmission block in a threaded manner;

the second sliding seat is arranged on the first sliding seat in a sliding manner, and the sliding direction of the second sliding seat is mutually perpendicular to the sliding direction of the first sliding seat;

The adjusting bolt is rotatably arranged on the first sliding seat, and the main body of the adjusting bolt is inserted into the second sliding seat in a threaded manner;

and the slitting assembly is arranged on the second sliding seat and is used for slitting the electronic material.

The utility model relates to a multifunctional on-line automatic cutting differential knife, which comprises:

the cutting frame is fixedly arranged on the second sliding seat;

the cutting cushion block is fixedly arranged in the cutting frame and is provided with a plurality of guide grooves;

The cutter frame is vertically arranged in the cutter frame in a sliding manner, and a plurality of differential cutter assemblies are arranged on the cutter frame;

The cylinder is fixedly arranged at the top end of the cutting frame, and the output end of the cylinder is fixedly connected with the top end of the cutting frame.

The utility model relates to a multifunctional on-line automatic cutting differential cutter, which comprises:

The blade pressing block is slidably clamped in the cutter frame and slides along the inclined guide surface;

The two locking screws are inserted on the cutter frame in a threaded manner, and the ends of the locking screws are attached to the end face of the blade pressing block;

The differential blade is arranged in the cutter frame and is pressed and fixed through a blade pressing block.

The utility model relates to a multifunctional on-line automatic cutting differential cutter, which comprises a positioning and guiding mechanism, wherein the positioning and guiding mechanism comprises:

The material guide support plate is fixedly arranged on the adjusting support;

the fixed support block is fixedly arranged on the material guide support plate and used for lifting materials;

the two limiting components are symmetrically arranged on the material guide support plate and are respectively arranged on two sides of the fixed support block;

The restriction assembly includes:

The support sliding block is fixedly arranged on the material guide support plate;

the sliding plate is clamped on the supporting sliding block in a sliding way;

The auxiliary supporting block is fixedly arranged on the sliding plate;

The fine tuning support block is fixedly arranged on the support sliding block;

The differential ruler is rotatably arranged on the fine adjustment support block;

The linkage block is fixedly connected with the sliding plate and is fixedly connected with the end part of the differential rule.

According to the multifunctional online automatic cutting differential cutter, the fixing screw is inserted into the sliding plate through the threads, and the fixing screw is used for locking and fixing the sliding plate.

The utility model relates to a multifunctional on-line automatic cutting differential cutter, which is characterized in that a limiting assembly further comprises:

the cylinder bracket is fixedly arranged on the sliding plate;

the material pressing cylinder is fixedly installed on the cylinder bracket in a lifting manner;

The guide sliding pressing block is fixedly arranged at the output end of the pressing cylinder, and is arranged on the auxiliary supporting block in a sliding manner, and a pressing block is arranged on the guide sliding pressing block.

According to the multifunctional online automatic cutting differential cutter, the auxiliary supporting block is provided with the air vent.

According to the multifunctional on-line automatic cutting differential cutter, the limiting column is fixedly inserted on the sliding plate.

Compared with the prior art, the utility model has the beneficial effects that:

The user rotates the adjusting handle, so that the position of the adjusting screw rod can be changed, and the transmission block and the cutting assembly on the transmission block are driven to transversely move, so that the fine adjustment of the cutting depth or position is realized; the second slide seat and the adjusting bolt enable the cutting head to be finely adjusted in the other dimension, when the adjusting bolt is rotated, the adjusting bolt can adjust the position of the second slide seat, the adjusting flexibility is further improved, the adjusting bolt is suitable for more complex cutting tasks, the adjusting bolt is arranged on the cutting mechanism and is responsible for guiding materials to enter a cutting area to ensure that the materials keep a correct path and a correct posture in the cutting process, the cutting quality is improved, waste generation is reduced, fine adjustment of the transverse cutting position is achieved through accurate adjustment of the adjusting handle and the adjusting bolt, wide materials with multiple specifications can be randomly segmented, the switching is convenient, the cutting efficiency is improved, the labor cost is reduced, and the cutting precision is improved.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the cutting mechanism;

FIG. 3 is a schematic view of a differential blade mounting structure;

FIG. 4 is an enlarged schematic view of the positioning and guiding mechanism;

FIG. 5 is an enlarged schematic view of the restraint assembly;

The drawing comprises a main body support, a cutting mechanism, a regulating support, a first sliding seat, a second sliding seat, a driving block, a bearing support plate, a regulating handle, a regulating screw rod, a second sliding seat, a regulating bolt, a cutting frame, a cutting cushion block, a cutting frame, a cylinder, a blade pressing block, a locking screw, a differential blade, a positioning guide mechanism, a guide support plate, a fixed support block, a support slide block, a supporting slide block, a sliding plate, a supporting support block, a fine-tuning support block, a guide support block, a differential rule, a driving block, a fixed screw, a cylinder support, a cylinder, a guide slide block, a limit column, a guide support block, a guide support column, a guide support block, a limit column and a limit column.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1 to 5, a multifunctional on-line automatic cutting differential cutter of the present utility model includes:

the main body support 1 is independently and fixedly arranged;

a cutting mechanism 2 provided on the main body holder 1 for cutting the electronic material;

the positioning and guiding mechanism 3 is arranged on the cutting mechanism 2 and used for guiding materials;

wherein the cutting mechanism 2 further comprises:

an adjusting support 21 fixedly connected with the main body support 1;

a first slider 22 slidably fitted to the adjustment support 21;

The transmission block 23 is fixedly arranged on the first sliding seat 22;

The bearing support plate 24 is fixedly arranged on the adjusting support 21;

an adjusting handle 25 rotatably provided on the bearing support plate 24;

The adjusting screw 26 is fixedly connected with the adjusting handle 25, and the adjusting screw 26 is inserted on the transmission block 23 in a threaded manner;

The second sliding seat 27 is arranged on the first sliding seat 22 in a sliding manner, and the sliding direction of the second sliding seat 27 is mutually perpendicular to the sliding direction of the first sliding seat 22;

An adjusting bolt 28 rotatably mounted on the first slide 22, the main body of the adjusting bolt 28 being threadedly inserted into the second slide 27

A slitting assembly disposed on the second slider 27 for slitting the electronic material;

The working process and principle of the device are that a user rotates the adjusting handle 25 to change the position of the adjusting screw 26, and then drives the transmission block 23 and the cutting assembly on the transmission block to move transversely, fine adjustment of the cutting depth or position is achieved, the second sliding seat 27 and the adjusting bolt 28 enable the cutting head to be finely adjusted in the other dimension, when the adjusting bolt 28 is rotated, the position of the second sliding seat 27 can be adjusted, adjustment flexibility is further improved, the device is suitable for more complex cutting tasks, the device is arranged above the cutting mechanism 2 and is responsible for guiding materials to enter a cutting area, the materials are guaranteed to keep correct paths and postures in the cutting process, cutting quality is improved, waste materials are reduced, fine adjustment of the transverse cutting position is achieved, wide materials with multiple specifications can be randomly divided through accurate adjustment of the adjusting handle 25 and the adjusting screw 26, switching is convenient, cutting efficiency is improved, labor cost is reduced, and cutting precision is improved.

As shown in fig. 1 to 2, the slitting assembly includes:

A cutting frame 2a fixedly mounted on the second slider 27;

a cutting cushion block 2b fixedly installed in the cutting frame 2a, and a plurality of guide grooves are arranged on the cutting cushion block 2 b;

the cutter rest 2c is vertically arranged in the cutter rest 2a in a sliding manner, and a plurality of differential cutter assemblies are arranged on the cutter rest 2 c;

The cylinder 2d is fixedly arranged at the top end of the cutting frame 2a, and the output end of the cylinder 2d is fixedly connected with the top end of the cutting frame 2 c;

The working process and principle of the slitting assembly are that electronic materials are guided through the positioning guide wheel material mechanism 3 to ensure accuracy of a cutting path, then the position of the first sliding seat 22 is adjusted through adjusting the adjusting handle 25 and the adjusting screw 26 according to cutting requirements, further the cutting position of the cutting mechanism is adjusted, meanwhile, the position of the second sliding seat 27 is adjusted through the adjusting bolt 28 to achieve fine adjustment of a cutting starting position, when the cutting position is adjusted, the air cylinder 2d starts to work to push the slitting knife rest 2c to vertically slide along the cutting frame 2a, in the sliding process, the slitting knife assembly performs cutting operation along the guide groove on the cutting cushion block 2b, the design of the slitting knife assembly enables the cutting process to be more accurate, high requirements on cutting accuracy can be met, after cutting is completed, the air cylinder 2d stops moving, the slitting knife rest 2c returns to an initial position, at the moment, cutting specifications can be replaced through adjusting the adjusting handle 25 and the adjusting screw 28 or the guide groove of the cutting cushion block 2b performs next cutting operation, stability of the materials during cutting is guaranteed, cutting errors caused by shaking of the materials are reduced, automatic lifting of the slitting knife rest 2c is achieved, working efficiency is improved due to power provided by the air cylinder 2d, and manual intervention factors can be reduced.

As shown in fig. 3, the micro-knife assembly includes:

A blade pressing block 2e, wherein the blade pressing block 2e is slidably clamped in the cutter rest 2c, and the blade pressing block 2e slides along the inclined guide surface;

The two locking screws 2f are inserted on the cutter rest 2c in a threaded manner, and the end parts of the locking screws 2f are attached to the end surfaces of the blade pressing blocks 2 e;

A differential blade 2g arranged in the cutter frame 2c and fixed by a blade pressing block 2 e;

When the differential blade 2g needs to be replaced or adjusted, the two locking screws 2f are firstly loosened to enable the blade pressing block 2e to freely slide on the inclined guide surface, then the old differential blade is taken out and a new differential blade or a calibrated differential blade is inserted, finally the blade pressing block 2e is pushed to move downwards along the inclined guide surface until the new inserted differential blade 2g is pressed, the locking screws 2f are screwed to fix the position of the blade pressing block, the blade pressing block 2e can provide enough pressing force and simultaneously allow the differential blade 2g to be quickly and safely replaced through the design of the inclined guide surface, and the locking screws 2f further enhance the stability of the system and prevent unexpected loosening in the cutting process.

As shown in fig. 4 to 5, the positioning guide mechanism 3 includes:

The material guide support plate 31, the material guide support plate 31 is fixedly arranged on the adjusting support 21;

The fixed support block 32 is fixedly arranged on the material guide support plate 31 and is used for lifting materials;

The two limiting components are symmetrically arranged on the material guide support plate 31 and are respectively arranged on two sides of the fixed support block 32;

The restriction assembly includes:

the support slide block 33 is fixedly arranged on the material guide support plate 31;

A slide plate 34 slidably fitted to the support slider 33;

The auxiliary supporting block 35 is fixedly arranged on the sliding plate 34;

the fine tuning support block 36 is fixedly arranged on the supporting sliding block 33;

a differential ruler 37 rotatably mounted on the fine adjustment support 36;

The linkage block 38 is fixedly connected with the sliding plate 34 and is fixedly connected with the end part of the differential ruler 37;

The positioning and guiding mechanism 3 works on the following principle that when an electronic material enters the positioning and guiding mechanism, the electronic material is lifted by the fixed supporting block 32 and is initially positioned, according to the actual width of the material, an operator can adjust the positions of the sliding plate 34 and the auxiliary supporting block 35 on the sliding plate through rotating the differential rule 37, the distance between the sliding plate 34 and the auxiliary supporting block is exactly matched with the width of the material, after the adjustment is completed, the fixed supporting block 32 and the auxiliary supporting block 35 act together to support the material, the differential rule 37 allows the operator to carry out extremely fine adjustment, positioning accuracy is improved, the position of the limiting assembly can be quickly adjusted by simply rotating the differential rule 37 so as to adapt to materials with different sizes, flexibility and application range of equipment are enhanced, and the combined design of the fixed supporting block 32 and the auxiliary supporting block 35 ensures stability of the material in the cutting process, and cutting errors caused by material shaking or offset are reduced.

The fixing screw 39 is inserted on the sliding plate 34 in a threaded manner, the fixing screw 39 is used for locking and fixing the sliding plate 34, the connection between the fixing screw 39 and the sliding plate 34 is realized through threads, the threaded connection has self-locking property, namely, when two threaded pieces are screwed, a certain friction force is generated between the two threaded pieces, the friction force can resist the action of external load, so that the connection is kept stable, therefore, the fixing screw is rotated and attached to the supporting sliding block 33, the stable fixing of the sliding plate is realized, and the accurate control and stable fixing of the position of the sliding plate can be realized by gradually increasing the screwing force of the fixing screw.

The restriction assembly further comprises:

A cylinder bracket 3a fixedly mounted on the slide plate 34;

The material pressing cylinder 3b is fixedly mounted on the cylinder bracket 3a in a lifting manner;

The guide sliding block 3c is fixedly arranged at the output end of the pressing cylinder 3b, the guide sliding block 3c is arranged on the auxiliary supporting block 35 in a sliding mode, a pressing block is arranged on the guide sliding block 3c, the pressing cylinder 3b serves as a power source, pushing force or pulling force is generated through movement of a piston inside the pressing cylinder, when the cylinder receives a control signal, the piston inside the pressing cylinder starts to move to push or pull the guide sliding block 3c connected with the cylinder to move, the guide sliding block 3c slides on the auxiliary supporting block 35, so that the guide sliding block can keep a stable movement track and small friction resistance when the guide sliding block is subjected to external force, the pressing block is used for pressing materials, the shape of the pressing block is matched with the shape of the materials, and the pressing block can uniformly distribute pressure and avoid local damage to the materials when pressure is applied.

The auxiliary support block 35 is provided with an air vent, when a thin, soft or easily-deformed electronic material is required to be cut, the air vent is connected to a vacuum source, when the sliding guide pressing block 3c descends and presses the material, a vacuum system is started at the same time, negative pressure is generated through the air vent, vacuum acts on the surface of the material and firmly adsorbs the material between the fixed support block 32 and the auxiliary support block 35 to prevent the material from being displaced or deformed in the cutting process, after the cutting is finished, the vacuum system is closed, the material is released to facilitate subsequent treatment or extraction, the air vent can be connected to a compressed air source for some materials which are easy to adhere to a cutting platform, after the cutting is finished, an air blowing function is started, air current is blown to the surface of the material through the air vent to help easily separate the material, so that the time and difficulty of manual stripping are reduced, and the air blowing can also be used for cleaning a cutting area, debris generated in the cutting process is removed, the equipment is kept clean, and the quality of the next cutting is prevented from being influenced.

The limit post 3d is fixedly inserted on the slide plate 34, the limit post 3d limits the maximum movement range of the slide plate 34 and prevents the equipment from being broken or damaged due to excessive movement of the slide plate, the limit post 3d serves as a physical barrier, the movement range of the slide plate 34 is effectively limited, the risk caused by the movement of the slide plate out of the track is reduced, and the overall safety and reliability of the equipment are improved.

The multifunctional on-line automatic cutting differential cutter is arranged in a common mechanical mode, and can be implemented only by achieving the beneficial effects.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (8)

1. A multifunctional online automatic micro-cutting blade, characterized in that it comprises: The main support is independently and fixedly installed. A cutting mechanism, mounted on the main support, is used to cut electronic materials; A positioning and guiding mechanism is provided on the cutting mechanism to guide the material; The cutting mechanism further includes: The adjustable support is fixedly connected to the main support. The first slide block is slidably mounted on the adjusting support; The transmission block is fixedly mounted on the first slide. The bearing support plate is fixedly installed on the adjusting support; The adjusting handle is rotatably mounted on the bearing support plate; An adjusting screw is fixedly connected to the adjusting handle, and the adjusting screw is threadedly inserted into the transmission block; The second slide block is slidably disposed on the first slide block, and the sliding direction of the second slide block is perpendicular to the sliding direction of the first slide block; The adjusting bolt is rotatably mounted on the first slide, and the main body of the adjusting bolt is threaded into the second slide. The slitting assembly, mounted on the second slide, is used to slit electronic materials. 2. The multifunctional online automatic cutting micro-blade as described in claim 1, characterized in that the cutting component comprises: The cutting frame is fixedly installed on the second slide. A cutting pad is fixedly installed in the cutting frame, and the cutting pad is provided with multiple guide grooves; A cutter holder is vertically slidably disposed in the cutting frame, and multiple micro-blade assemblies are disposed on the cutter holder; A cylinder is fixedly installed on the top of the cutting frame, and the output end of the cylinder is fastened to the top of the cutting frame. 3. The multifunctional online automatic cutting micro-blade as described in claim 2, characterized in that the micro-blade assembly comprises: A blade clamping block is slidably mounted in the cutter holder and slides along an inclined guide surface; Two locking screws are threadedly inserted into the cutter holder, with the ends of the locking screws fitting against the end face of the blade pressure block. The differential blade is disposed in the cutter holder and is pressed and fixed by the blade clamping block. 4. The multifunctional online automatic cutting micro-blade as described in claim 1, characterized in that the positioning and guiding mechanism comprises: A material guide plate is fixedly installed on the adjusting support. A fixed support block is fixedly installed on the material guide plate to support the material; Two limiting components are symmetrically arranged on the material guide plate, and the two limiting components are respectively arranged on both sides of the fixed support block; The limiting components include: The support slider is fixedly installed on the guide plate; The sliding plate is mounted on the support slider. An auxiliary support block is fixedly installed on the slide plate; A fine-tuning block is fixedly installed on the support slider; The micrometer is rotatably mounted on the fine-tuning block; The linkage block is fixedly connected to the slide plate and also tightly connected to the end of the micrometer. 5. The multifunctional online automatic micro-cutting blade as described in claim 4, characterized in that a fixing screw is threadedly inserted into the slide plate, and the fixing screw is used to lock and fix the slide plate. 6. The multifunctional online automatic micro-cutting blade as described in claim 4, characterized in that the limiting component further includes: The cylinder bracket is fixedly mounted on the slide plate; The material pressing cylinder is hoisted and fixedly installed on the cylinder bracket; A guide sliding block is fixedly installed at the output end of the pressing cylinder, and the guide sliding block is slidably disposed on the auxiliary support block, and a pressing block is disposed on the guide sliding block. 7. The multifunctional online automatic cutting micro-blade as described in claim 4, characterized in that the auxiliary support block is provided with an air vent. 8. The multifunctional online automatic cutting micro-blade as described in claim 4, characterized in that a limit post is fixedly inserted on the slide plate.