CN210589849U

CN210589849U - Automatic blank-making machine

Info

Publication number: CN210589849U
Application number: CN201921250082.XU
Authority: CN
Inventors: 丁晓锋; 罗焱杰; 卢彬
Original assignee: Jingdezhen Yunhe Porcelain Culture Co ltd
Current assignee: Jingdezhen Yunhe Porcelain Culture Co ltd
Priority date: 2019-08-05
Filing date: 2019-08-05
Publication date: 2020-05-22
Anticipated expiration: 2029-08-05

Abstract

The utility model mainly relates to an automatic blank-trimming machine, a main frame is provided with a rotary operating platform which is used for fixing and driving a blank body to rotate; the rotary operation platform comprises a chassis, the chassis is arranged on the main frame and driven by a driving device to rotate, an upper rotary disc is arranged on the chassis in a matched mode and used for fixedly placing the green body; a cutting mechanism is arranged above the rotary operating platform; the cutting mechanism comprises a clamp, a cutter is arranged on the clamp, the clamp is fixed on the main frame through a feed shaft, and the feed shaft is used for driving the cutter to move; the side edge of the rotary operation platform is provided with a centering mechanism, the centering mechanism is used for positioning the axis of the green body, the centering mechanism comprises a plurality of clamping blocks, the clamping blocks are arranged on two sides of the green body in a mirror image mode, the clamping blocks are connected with a belt transmission device, and the belt transmission device is used for driving the clamping blocks to synchronously clamp and move towards the direction of the green body; this project organization is ingenious, can replace artifical automation to do benefit to the base, and the base precision of doing benefit is high, has practiced thrift the cost of labor, has improved the economic benefits of enterprise.

Description

Automatic blank-making machine

Technical Field

The utility model relates to an automatic sharp base machine belongs to ceramic manufacture production facility field.

Background

At present, ceramic enterprises perform blank benefiting procedures on blanks, and the blank benefiting procedures are basically manual blank benefiting, so that the manual blank benefiting effect is poor, the thickness is uneven, and the blanks are easy to deform; workers are required to have higher technical level for the blank benefiting process, the labor cost is improved, and the economic benefit of enterprises is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an automatic base machine of doing benefit, this project organization is ingenious, can replace artifical automation to do benefit to the base, and the base precision of doing benefit is high, has practiced thrift the cost of labor, has improved the economic benefits of enterprise.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the automatic blank-trimming machine comprises a main frame, wherein a rotary operating platform is arranged on the main frame and used for fixing and driving a blank body to rotate; the rotary operation platform comprises a chassis, the chassis is arranged on the main frame and driven by a driving device to rotate, an upper rotary disc is arranged on the chassis in a matched mode and used for fixedly placing the green body; a cutting mechanism is arranged above the rotary operating platform and is used for cutting the green body; the cutting mechanism comprises a clamp, a cutter is arranged on the clamp, the clamp is fixed on the main frame through a feed shaft, and the feed shaft is used for driving the cutter to move; the side edge of the rotary operation platform is provided with a centering mechanism, the centering mechanism is used for positioning the axis of the green body, the centering mechanism comprises a plurality of clamping blocks, the clamping blocks are arranged on two sides of the green body in a mirror image mode, the clamping blocks are connected with a belt transmission device, and the belt transmission device is used for driving the clamping blocks to synchronously clamp and move towards the direction of the green body; the side of the main frame is provided with a program control box.

The rotary operation platform is a hollow rotary platform, the bottom of the rotary operation platform is connected with a compressor, and the compressor is used for enabling the inside of the rotary operation platform to form negative pressure so as to achieve fixation of the adsorption green body.

The feeding shaft comprises a first feeding shaft and a second feeding shaft, the first feeding shaft is used for controlling the cutter to move and feed in the left-right direction, and the second feeding shaft is used for controlling the cutter to move and feed in the up-down direction.

Two sides of the clamp are respectively provided with a cutter, and the two cutters are oppositely arranged.

And a cushion block is arranged on the clamp and matched with the cutter, and the cushion block is used for cutter setting.

The centering mechanism comprises a base, a positioning block, a centering mechanism and a positioning mechanism, wherein the positioning block comprises a base plate and a base plate; the belt transmission device comprises a transmission belt and a torque motor, a first connecting block is connected with the upper end of the transmission belt, a second connecting block is connected with the lower end of the transmission belt, the torque motor drives the transmission belt to rotate, the transmission belt slides on the guide rail through driving the first connecting block and the second connecting block, and then the first clamping block and the second clamping block are driven to synchronously move relatively.

The main frame is provided with a waste material channel.

The utility model discloses following beneficial effect has:

the automatic blank-trimming machine comprises a main frame, wherein a rotary operating platform is arranged on the main frame and used for fixing and driving a blank body to rotate; the rotary operation platform comprises a chassis, the chassis is arranged on the main frame and driven by a driving device to rotate, an upper rotary disc is arranged on the chassis in a matched mode and used for fixedly placing the green body; a cutting mechanism is arranged above the rotary operating platform and is used for cutting the green body to realize the green body benefiting work; the cutting mechanism comprises a clamp, a cutter is arranged on the clamp, the clamp is fixed on the main frame through a feed shaft, and the feed shaft is used for driving the cutter to move; the side edge of the rotary operation platform is provided with a centering mechanism, the centering mechanism is used for positioning the axis of the green body, the centering mechanism comprises a plurality of clamping blocks, the clamping blocks are arranged on two sides of the green body in a mirror image mode, the clamping blocks are connected with a belt transmission device, and the belt transmission device is used for driving the clamping blocks to synchronously clamp and move towards the direction of the green body; the side of the main frame is provided with a program control box which is used for controlling the whole operation of the blank making machine. This project organization is ingenious, can replace artifical automation to do benefit to the base, and the base precision of doing benefit is high, has practiced thrift the cost of labor, has improved the economic benefits of enterprise.

Drawings

FIG. 1 is a three-dimensional structure of the present invention;

FIG. 2 is an enlarged view of A in FIG. 1 according to the present invention;

FIG. 3 is a three-dimensional structure view of the centering mechanism of the present invention;

fig. 4 is a schematic view of the operation of the present invention.

Reference numbers in the figures: 1. a main frame; 11. a green body; 2. rotating the operating platform; 21. a chassis; 22. a drive device; 3. an upper turntable; 4. a cutting mechanism; 41. a clamp; 42. a cutter; 43. a feed shaft; 431. a first feeding shaft; 432. a second feeding shaft; 44. cushion blocks; 5. a centering mechanism; 51. a clamping block; 511. a first clamping block; 512. a second clamping block; 513. a first connecting block; 514. a second connecting block; 52. a belt drive; 521. a transmission belt; 522. a torque motor; 53. a guide rail; 6. a program control box; 7. a compressor; 8. a waste channel.

Detailed Description

As shown in fig. 1, 2, 3 and 4, the automatic blank-making machine comprises a main frame 1, wherein a rotary operating platform 2 is arranged on the main frame 1, and the rotary operating platform 2 is used for fixing and driving a blank body 11 to rotate; the rotary operation platform 2 comprises a chassis 21, the chassis 21 is arranged on the main frame 1, the chassis 21 is driven by a driving device 22 to rotate, an upper turntable 3 is arranged on the chassis 21 in a matched mode, and the upper turntable 3 is used for fixedly placing the green body 11; a cutting mechanism 4 is arranged above the rotary operating platform 2, and the cutting mechanism 4 is used for cutting the green body 11 to realize the green body utilization work; the cutting mechanism 4 comprises a clamp 41, a cutter 42 is arranged on the clamp 41, the clamp 41 is fixed on the main frame 1 through a feed shaft 43, and the feed shaft 43 is used for driving the cutter 42 to move; the side edge of the rotary operation platform 2 is provided with a centering mechanism 5, the centering mechanism 5 is used for positioning the axis of the green body 11, the centering mechanism 5 comprises a plurality of clamping blocks 51, the clamping blocks 51 are arranged on two sides of the green body 11 in a mirror image manner, the clamping blocks 51 are connected with a belt transmission device 52, and the belt transmission device 52 is used for driving the clamping blocks 51 to synchronously clamp and move towards the direction of the green body 11; a program control box 6 is arranged on the side edge of the main frame 1, and the program control box 6 is used for controlling the whole operation of the blank making machine. This project organization is ingenious, can replace artifical automation to do benefit to the base, and the base precision of doing benefit is high, has practiced thrift the cost of labor, has improved the economic benefits of enterprise.

The specific working steps are as follows:

1. programming according to the blank shape requirement;

2. placing the blank body 11 on the upper rotary table 3;

3. after the centering mechanism 5 positions the axis of the blank body 11, fixing the blank body 11;

4. executing a programming instruction, and cutting the outer shape of the blank body 11;

5. replacing the corresponding upper rotary disc 3, turning over the blank body 11 with the cut outer side shape, and then putting the blank body 11 on the upper rotary disc 3 for fixing;

6. continuing to execute the programming instruction, and cutting the internal shape of the blank body 11 to finish the blank benefiting of the blank body 11;

in actual production, two blank benefiting machines work simultaneously, one blank benefiting machine is used for cutting the outer shape of the blank body 11, the other blank benefiting machine is used for cutting the inner shape of the blank body 11, the step of replacing the upper rotary disc 3 is omitted, the blank body 11 with the cut outer shape is directly placed on the upper rotary disc 3 of the other machine to be fixed, and the inner shape of the blank body 11 is cut.

The rotary operation platform 2 is a hollow rotary platform, the bottom of the rotary operation platform 2 is connected with a compressor 7, and the compressor 7 is used for enabling the inside of the rotary operation platform 2 to form negative pressure so as to achieve the purpose of fixing the adsorption blank body 11.

The feeding shaft 43 comprises a first feeding shaft 431 and a second feeding shaft 432, wherein the first feeding shaft 431 is used for controlling the cutter 42 to move and feed in the left-right direction, and the second feeding shaft 432 is used for controlling the cutter 42 to move and feed in the up-down direction.

Two sides of the clamp 41 are respectively provided with a cutter 42, the two cutters 42 are oppositely arranged, and the proper cutter 42 is selected for cutting according to the forward and reverse directions of the rotary operating platform 2, so that the operation is convenient and fast.

On the clamp 41, a spacer 44 is provided to cooperate with the cutter 42, and the spacer 44 is used for aligning the cutter 42 to ensure that the cutter 42 is aligned with the axis of the rotary operating platform 2.

The clamping block 51 comprises a first clamping block 511 and a second clamping block 512, the first clamping block 511 and the second clamping block 512 are arranged on two sides of the green body 11 in a mirror image mode, the centering mechanism 5 further comprises a guide rail 53, one end of the first clamping block 511 and one end of the second clamping block 512 are respectively connected with a first connecting block 513 and a second connecting block 514, and the first clamping block 511 and the second clamping block 512 are slidably mounted on the guide rail 53 through the connecting blocks; the belt transmission device 52 comprises a transmission belt 521 and a torque motor 522, a first connecting block 513 is connected with the upper end of the transmission belt 521, a second connecting block 514 is connected with the lower end of the transmission belt 521, the torque motor 522 drives the transmission belt 521 to rotate, and the transmission belt 521 drives the first connecting block 513 and the second connecting block 514 to slide on the guide rail 53, so that the first clamping block 511 and the second clamping block 512 are driven to synchronously move relatively, and the purpose of positioning the axis of the green body 11 is achieved.

The main frame 1 is provided with a waste material channel 8, which is convenient for discharging the cut waste material.

Above is the utility model discloses preferred embodiment the utility model discloses make a plurality of other simple replacements and changes under the design prerequisite, all should regard as belonging to the utility model discloses a protection category.

Claims

1. Automatic blank machine of li, its characterized in that: the green body forming machine comprises a main frame, wherein a rotary operating platform is arranged on the main frame and used for fixing and driving a green body to rotate; the rotary operation platform comprises a chassis, the chassis is arranged on the main frame and driven by a driving device to rotate, an upper rotary disc is arranged on the chassis in a matched mode and used for fixedly placing the green body; a cutting mechanism is arranged above the rotary operating platform and is used for cutting the green body; the cutting mechanism comprises a clamp, a cutter is arranged on the clamp, the clamp is fixed on the main frame through a feed shaft, and the feed shaft is used for driving the cutter to move; the side edge of the rotary operation platform is provided with a centering mechanism, the centering mechanism is used for positioning the axis of the green body, the centering mechanism comprises a plurality of clamping blocks, the clamping blocks are arranged on two sides of the green body in a mirror image mode, the clamping blocks are connected with a belt transmission device, and the belt transmission device is used for driving the clamping blocks to synchronously clamp and move towards the direction of the green body; the side of the main frame is provided with a program control box.

2. The automatic slab sharpening machine of claim 1, wherein: the rotary operation platform is a hollow rotary platform, the bottom of the rotary operation platform is connected with a compressor, and the compressor is used for enabling the inside of the rotary operation platform to form negative pressure so as to achieve the purpose of fixing the adsorption green body.

3. The automatic slab sharpening machine of claim 1, wherein: the feeding shaft comprises a first feeding shaft and a second feeding shaft, the first feeding shaft is used for controlling the cutter to move and feed in the left-right direction, and the second feeding shaft is used for controlling the cutter to move and feed in the up-down direction.

4. The automatic slab sharpening machine of claim 1, wherein: two sides of the clamp are respectively provided with a cutter, and the two cutters are oppositely arranged.

5. The automatic slab sharpening machine of claim 1, wherein: and a cushion block is arranged on the clamp and matched with the cutter, and the cushion block is used for cutter setting.

6. The automatic slab sharpening machine of claim 1, wherein: the centering mechanism also comprises a guide rail, one end of the first clamping block and one end of the second clamping block are respectively connected with a first connecting block and a second connecting block, and the first clamping block and the second clamping block are slidably arranged on the guide rail through the connecting blocks; the belt transmission device comprises a transmission belt and a torque motor, a first connecting block is connected with the upper end of the transmission belt, a second connecting block is connected with the lower end of the transmission belt, the torque motor drives the transmission belt to rotate, the transmission belt slides on the guide rail through driving the first connecting block and the second connecting block, and then the first clamping block and the second clamping block are driven to synchronously move relatively.

7. The automatic slab sharpening machine of claim 1, wherein: the main frame is provided with a waste material channel.