CN219095245U

CN219095245U - Cutting equipment is used in notebook computer casing production

Info

Publication number: CN219095245U
Application number: CN202223177518.1U
Authority: CN
Inventors: 马伟建
Original assignee: Chongqing Bingrong Precision Manufacturing Co ltd
Current assignee: Chongqing Bingrong Precision Electronics Co ltd
Priority date: 2022-11-29
Filing date: 2022-11-29
Publication date: 2023-05-30
Anticipated expiration: 2032-11-29

Abstract

The utility model relates to the technical field of notebook computer shell production equipment, and in particular discloses cutting equipment for notebook computer shell production, which comprises the following components: conveying mechanism: the device comprises a conveyor belt and a driving assembly for driving the conveyor belt to intermittently move, wherein a plurality of supporting bars are uniformly arranged on the conveyor belt; the auxiliary mechanism comprises: the conveying device comprises a mounting frame for mounting a conveying mechanism and supporting rods mounted on the mounting frame, wherein the supporting rods are positioned on two sides of the conveying belt and slide along the surfaces of the supporting rods; and a cutting mechanism: including establishing the lead screw drive assembly on the mounting bracket and by the first motor of lead screw drive assembly drive removal, the output shaft of first motor is equipped with the cutting wheel, and drive assembly drive conveyer belt intermittent type motion for raw and other materials can carry in proper order, the technology of cutting, have realized the transport cutting integration production flow in the notebook computer shell production process promptly, and accomplish the cutting at the in-process of carrying, have simplified notebook computer shell production flow, have improved production efficiency.

Description

Cutting equipment is used in notebook computer casing production

Technical Field

The application relates to the technical field of notebook computer shell production equipment, and particularly discloses cutting equipment for notebook computer shell production.

Background

In modern society, the use of computers has become more and more widespread, and as the demand for portability of notebook computers has increased for various purposes by some users, the demand for notebook computers has also increased.

In the design and manufacturing process of notebook computer shells, for the purposes of attractive appearance, portability and convenient processing, most of notebook computer shells adopt a combined structure of alloy and plastic, and in the production process of notebook computer shells, the stamping forming is carried out by adopting a die.

Along with the improvement of aesthetic requirements of people on the appearance of a notebook computer shell and the improvement of the protective performance of the notebook computer, the side surface of the notebook computer shell needs to be in an acute angle structure with the bottom of the shell, so that the surface of the notebook computer shell is excessively smoother, the side surface of the notebook computer shell is more attractive, the existing production mode is that raw materials are cut to form a primary product with a certain specification, then the primary product is punched through a continuous die to form a plate-shaped primary product, and then the primary product is subjected to edge shrinking through a secondary punching die to form a full-circle necking structure.

Disclosure of Invention

The utility model aims to solve the problems of complicated production process and lower production efficiency caused by the fact that the cutting and conveying steps are mutually independent and processing is required to be carried out on different equipment in the traditional production process of the notebook computer shell.

In order to achieve the above object, a basic solution of the present utility model provides a cutting device for producing a notebook computer casing, including:

conveying mechanism: the conveying mechanism comprises a conveying belt and a driving assembly for driving the conveying belt to intermittently move, and a plurality of supporting bars for placing raw materials are uniformly arranged on the conveying belt;

the auxiliary mechanism comprises: the auxiliary mechanism comprises a mounting frame for mounting the conveying mechanism and supporting rods mounted on the mounting frame, the supporting rods are positioned on two sides of the conveyor belt, and the supporting rods slide along the surfaces of the supporting rods;

and a cutting mechanism: the cutting mechanism comprises a screw transmission assembly arranged on the mounting frame and a first motor driven to move by the screw transmission assembly, and a cutting wheel for cutting raw materials is arranged on an output shaft of the first motor.

The principle and effect of this basic scheme lie in:

1. according to the utility model, the supporting strips are arranged on the conveyor belt, and gaps are formed between the raw materials and the surface of the conveyor belt when the raw materials are placed on the supporting strips, so that the cutting wheel can cut the raw materials without damaging the surface of the conveyor belt.

2. According to the utility model, the supporting rods are arranged, so that the supporting rods can play a role in supporting the supporting rods in the moving process along with the transmission belt, and the supporting rods are used as stressed structures, so that the positions of the supporting rods are relatively stable, the raw materials are more conveniently cut by the cutting wheel, and the cutting precision is improved.

3. The driving component drives the conveyor belt to intermittently move, so that raw materials can be sequentially conveyed and cut, namely, the conveying and cutting integrated production flow in the production process of the notebook computer shell is realized, cutting is completed in the conveying process, the production flow of the notebook computer shell is simplified, and the production efficiency is improved.

Further, grooves matched with the support rods are formed in the positions, extending out of the conveying belts, of the two ends of the support rods. The grooves are matched with the support rods, the positions of the support rods are further limited, the position of the support rods is prevented from shifting, and the cutting precision is improved.

Further, the side wall of the supporting rod is provided with a step surface capable of allowing the conveyor belt to slide. The stepped surface cooperates with the conveyor belt so that chips generated by cutting stay on the surface of the conveyor belt and are uniformly discharged along with the transmission of the conveyor belt.

Further, the screw transmission assembly comprises mounting seats symmetrically arranged on two sides of the conveyor belt, screws arranged between the mounting seats, nut seats matched with the screws, and a second motor for driving the screws to rotate, and the motor is arranged on the nut seats. The second motor drives the screw rod to rotate, and the cooperation between the screw rod and the nut seat enables the rotation of the screw rod to be converted into the sliding of the nut seat, so that the first motor is driven to move, and raw materials are cut.

Further, a guide rod is further arranged between the mounting seats, and the nut seat is in sliding connection with the guide rod. The guide rod plays a role in limiting and guiding the sliding of the nut seat.

Further, the driving assembly comprises a third motor, an intermittent driving mechanism driven by the third motor, a driving wheel driven by the intermittent driving mechanism to rotate and a driven wheel arranged on the mounting frame, and the conveying belt is arranged between the driving wheel and the driven wheel. The intermittent driving mechanism is driven by the third motor, continuous power of the third motor is converted into intermittent output power, so that the driving wheel is driven to intermittently move, the conveyor belt is driven to intermittently move, and the cutting wheel is convenient to cut raw materials.

Further, the intermittent driving mechanism comprises a wheel disc driven by a third motor to rotate and a sheave coaxially connected with the driving wheel, a plurality of radial grooves are uniformly formed in the radial direction of the sheave, and a clamping block capable of sliding into the radial grooves is arranged on the wheel disc. The third motor drives the wheel disc to rotate, so that the clamping blocks on the wheel disc sequentially slide into the radial grooves, and further the grooved wheels are driven to intermittently rotate, so that the conveyor belt is driven to intermittently move, and clamping jaws are convenient to clamp and feed the stamping parts to be stamped.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic diagram of a cutting device for producing a notebook computer casing according to an embodiment of the present application;

fig. 2 shows an enlarged view of a portion a in fig. 1 of a cutting device for producing a notebook computer case according to an embodiment of the present application.

Detailed Description

In order to further describe the technical means and effects adopted by the present utility model for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present utility model with reference to the accompanying drawings and preferred embodiments.

Reference numerals in the drawings of the specification include: the device comprises a fixing frame 1, a third motor 2, a secondary bevel gear reducer 3, a turntable 4, a grooved pulley 5, a driving wheel 6, a driven wheel 7, a conveyor belt 8, a supporting bar 9, an auxiliary frame 10, a supporting plate 11, a supporting bar 12, a reinforcing plate 13, a raw material 14, a cutting mechanism 15, a mounting seat 1501, a lead screw 1502, a guide rod 1503, a nut seat 1504, a second motor 1505, a cutting wheel 1506 and a first motor 1507.

A cutting device for producing a notebook computer casing, the embodiment is shown in fig. 1 and 2: comprises three parts including a conveying mechanism, an auxiliary mechanism and a cutting mechanism 15, and is specifically as follows:

conveying mechanism: the conveying mechanism comprises a conveying belt 8 and a driving assembly for driving the conveying belt 8 to intermittently move, wherein the driving assembly comprises a third motor 2, a speed reducer, an intermittent driving mechanism and a belt transmission mechanism, the speed reducer adopts a secondary bevel gear speed reducer 3, and an output shaft of the third motor 2 is connected with an output end of the secondary bevel gear speed reducer 3 through a coupler; the intermittent driving mechanism comprises a rotary table 4 and a grooved pulley 5, the grooved pulley 5 is radially and uniformly provided with a plurality of radial grooves, and the rotary table is provided with clamping blocks which can slide into the radial grooves; the output end of the rotary table 4 and the output end of the secondary bevel gear reducer 3 are coaxially connected, the belt transmission mechanism comprises a driving wheel 6 and a driven wheel 7, the conveying belt 8 is arranged between the driving wheel 6 and the driven wheel 7, the driving wheel 6 is coaxially connected with the grooved wheel 5, a plurality of supporting strips 9 used for placing raw materials 14 are uniformly arranged on the conveying belt 8, wherein the distance between the two supporting strips 9 is at least smaller than the width of a cut finished product, so that the raw materials 14 fall between the supporting strips 9 after cutting to influence the follow-up clamping and feeding, the distance between the supporting strips 9 is half of the width of the finished product, and the position for cutting the raw materials 14 is positioned at the center of the two supporting strips 9, so that the cut materials are symmetrically supported and carried by the two supporting strips 9, and the follow-up clamping and feeding are more convenient.

The auxiliary mechanism comprises: the auxiliary mechanism comprises a mounting frame for mounting the conveying mechanism and a supporting rod 12 mounted on the mounting frame, specifically, the mounting frame comprises a fixing frame 1 for mounting the driving wheel 6 and the driven wheel 7 and an auxiliary frame 10 for mounting the supporting rod 12, the auxiliary frame 10 comprises a frame body symmetrically arranged on two sides of the conveying belt 8 and a plurality of supporting plates 11 arranged between the frame bodies, the supporting plates 11 penetrate through the lower portion of the conveying belt 8, the supporting rods 12 are fixedly connected to the supporting plates 11, reinforcing plates 13 are arranged between the supporting rods 12 and the supporting plates 11, the supporting rods 12 are arranged on two sides of the conveying belt 8, and the supporting rods 9 slide along the surfaces of the supporting rods 12. Both ends of the supporting bar 9 extend into the edge of the conveying belt and are provided with grooves which are matched with the supporting bar 12 in a sliding connection, and the side wall of the supporting bar 12 is provided with a step surface which can accommodate the sliding of the conveying belt 8.

Cutting mechanism 15: the cutting mechanism 15 comprises a lead screw 1502 transmission assembly arranged on a mounting frame and a first motor 1507 driven to move by the lead screw 1502 transmission assembly, a cutting wheel 1506 for cutting the raw material 14 is arranged on an output shaft of the first motor 1507, the lead screw 1502 transmission assembly comprises mounting seats 1501 symmetrically arranged on two sides of a conveying belt 8, the lead screw 1502 arranged between the mounting seats 1501, a nut seat 1504 matched with the lead screw 1502 and a second motor 1505 for driving the lead screw 1502 to rotate, the second motor 1505 is in transmission connection with the lead screw 1502 through a gear pair, a guide rod 1503 is further arranged between the mounting seats 1501, the nut seat 1504 is in sliding connection with the guide rod 1503, and the motor is arranged at the bottom of the nut seat 1504, so that the nut seat 1504 does not interfere with normal feeding of the raw material 14.

In the implementation process of the utility model, the raw material 14 is continuously transported on the conveyor belt 8 from right to left, in the process, the third motor 2 drives the conveyor belt 8 to intermittently drive through the secondary bevel gear reducer 3 and the intermittent driving mechanism, the raw material 14 on the conveyor belt 8 is intermittently transported and stopped, when the raw material 14 stops, the second motor 1505 drives the lead screw 1502 to rotate, the cooperation between the lead screw 1502 and the nut seat 1504 converts the rotation of the lead screw 1502 into the sliding of the nut seat 1504, so as to drive the first motor 1507 to move, and simultaneously the first motor 1507 drives the cutting wheel 1506 to rotate, so as to cut the raw material 14, and when the raw material 14 is transported, the second motor 1505 stops rotating, so that the nut seat 1504 is positioned on two sides of the conveyor belt 8 and does not interfere with the normal transportation of the raw material 14, the raw material 14 is transported to the left end of the conveyor belt 8 after being cut, the raw material 14 is transported to the punching device by a feeding device such as a manipulator to punch, and the chips generated in the cutting process stay on the surface of the conveyor belt 8 and are uniformly discharged from the end face of the left end of the conveyor belt 8 along with the transportation of the conveyor belt 8.

According to the utility model, the third motor 2 drives the conveyor belt 8 to intermittently move, meanwhile, the first motor 1507 drives the screw 1502 to drive the assembly to move, and the second motor 1505 drives the cutting wheel 1506 to move, so that the raw materials 14 can be sequentially conveyed and cut, namely, the conveying and cutting integrated production process in the production process of the notebook computer shell is realized, cutting is completed in the conveying process, the production process of the notebook computer shell is simplified, and the production efficiency is improved.

The present utility model is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present utility model.

Claims

1. Cutting equipment is used in notebook computer casing production, characterized in that includes:

2. The cutting device for producing notebook computer housings according to claim 1, wherein the supporting bars are provided with grooves formed in the two ends of the supporting bars, which extend out of the conveyor belt, and are engaged with the supporting bars.

3. The cutting device for notebook computer casing production according to claim 1, wherein the side wall of the support rod is provided with a stepped surface capable of sliding the conveyor belt.

4. The cutting device for notebook computer casing production according to claim 1, wherein the screw transmission assembly comprises mounting seats symmetrically arranged on two sides of the conveyor belt, screws arranged between the mounting seats, nut seats matched with the screws, and a second motor for driving the screws to rotate, and the motor is arranged on the nut seats.

5. The cutting device for notebook computer casing production of claim 4, wherein a guide rod is further arranged between the mounting seats, and the nut seat is slidably connected with the guide rod.

6. The cutting device for notebook computer casing production according to claim 1, wherein the driving assembly comprises a third motor, an intermittent driving mechanism driven by the third motor, a driving wheel driven by the intermittent driving mechanism to rotate, and a driven wheel arranged on the mounting frame, and the conveyor belt is arranged between the driving wheel and the driven wheel.

7. The cutting device for notebook computer shell production according to claim 6, wherein the intermittent driving mechanism comprises a wheel disc driven by a third motor to rotate and a sheave coaxially connected with the driving wheel, the sheave is radially and uniformly provided with a plurality of radial grooves, and a clamping block capable of sliding into the radial grooves is arranged on the wheel disc.