CN110355863B

CN110355863B - Pug tangent plane device for pottery

Info

Publication number: CN110355863B
Application number: CN201910572184.1A
Authority: CN
Inventors: 陈如豹; 陈健; 兰世煌
Original assignee: Individual
Current assignee: Yingxian Tianshun Ceramics Co ltd
Priority date: 2019-06-28
Filing date: 2019-06-28
Publication date: 2021-04-13
Anticipated expiration: 2039-06-28
Also published as: CN110355863A

Abstract

The invention relates to the technical field of ceramic production. A mud material tangent plane device for ceramics preparation comprises a tangent plane bottom plate, a tangent plane moving assembly, a tangent plane limiting assembly and a tangent plane assembly; the bevel cutting moving assembly is arranged on the bevel cutting base plate, the bevel cutting limiting assembly and the bevel cutting assembly are arranged on the bevel cutting moving assembly, and the bevel cutting moving assembly drives the bevel cutting limiting assembly and the bevel cutting assembly to move; the bevel cutting assembly comprises a bevel cutting motor, a bevel cutting rotating shaft, a bevel cutting joint, a bevel cutting clamping disc and two bevel cutting steel wires. The technical effect of this patent is that cut the scarf automatically and process, improve the machining precision and improve machining efficiency.

Description

Pug tangent plane device for pottery

Technical Field

The invention relates to the technical field of ceramic production.

Background

At present often need cut off and cut the processing of inclined plane in ceramic adobe course of working, have replaced the manual work by cutting equipment in the course of working at present and cut off, for example the pug cutter disclosed in the chinese utility model patent of publication No. CN204183695U announcement day 2015.03.04 relates to a cutting equipment, including the chassis, its characterized in that: the bottom frame is close to a pug shaping machine, a cutting ring is arranged at one end, connected with the pug shaping machine, of the bottom frame, the cutting ring is fixed on the bottom frame through a movable steel pipe point, the movable steel pipe is connected with a motor, the movable steel pipe is controlled to circularly swing left and right through the motor, a steel wire is arranged in the cutting ring, a stop block is arranged on the bottom frame and used for controlling the swinging angle of the cutting ring, the movable steel pipe is a double-layer steel pipe, the outer steel pipe is a hollow semi-ring shape, two ends of the movable steel pipe are inwards provided with a baffle respectively, the inner steel pipe is tangent to the outer steel pipe, the upper end of. The utility model discloses a design is simple and easy convenient, effective innovation, cuts the ring and utilizes the motor to be circulating reciprocating motion, cuts the velocity of motion of ring through adjusting, cuts into fixed size with the pug after moulding, and this kind of design is more simple and easy convenient, easy to operate.

The equipment can only carry out cutting-off operation, cannot carry out slope cutting operation, does not have equipment for automatically cutting slopes in the market during slope cutting processing, still carries out slope cutting processing through manual work, is high in labor cost through manual processing, and is very tested for the technology of workers, meanwhile, the manual processing is low in efficiency, and the consistency of processed products is poor. At present, manual operation is replaced by automatic slope cutting equipment, and machining efficiency and machining quality are improved.

Disclosure of Invention

The invention aims to solve the problem of the existing pug bevel cutting operation, and provides a pug bevel cutting device for ceramics preparation, which can improve the processing precision and the processing efficiency by automatically cutting the bevel instead of manually operating.

For the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a mud material tangent plane device for ceramics preparation comprises a tangent plane bottom plate, a tangent plane moving assembly, a tangent plane limiting assembly and a tangent plane assembly; the bevel cutting moving assembly is arranged on the bevel cutting base plate, the bevel cutting limiting assembly and the bevel cutting assembly are arranged on the bevel cutting moving assembly, and the bevel cutting moving assembly drives the bevel cutting limiting assembly and the bevel cutting assembly to move; the bevel cutting assembly comprises a bevel cutting motor, a bevel cutting rotating shaft, a bevel cutting joint, a bevel cutting clamping disc and two bevel cutting steel wires; the bevel cutting motor is arranged in the middle of the supporting moving plate; the bevel cutting rotating shaft is arranged on the support moving plate through a plurality of rotating shaft seats, and the discharge end of the bevel cutting rotating shaft is connected with a bevel cutting motor; the bevel cutting joint is connected with the feed end of the bevel cutting rotating shaft; the bevel cutting clamping disc is arranged on the feeding end face of the bevel cutting joint through a clamping disc rotating shaft; both sides of the feeding end surface of the chamfer joint are provided with chamfer steel wire fixing rods; the two bevel steel wires are respectively arranged at the feeding ends of the two bevel steel wire fixing rods. Replace manual operation through automatic bevel equipment of cutting, improve the machining precision and improve machining efficiency.

Preferably, one end of each of the two bevel steel wires is arranged at the feeding end of each of the two bevel steel wire fixing rods, the other end of each of the two bevel steel wires is arranged at each of two sides of the feeding end face of the bevel joint, and the two bevel steel wires are symmetrically arranged and are in a splayed shape. The beveling is further preferably performed by beveling the steel wire.

Preferably, the bevel moving assembly comprises a supporting moving plate and a bevel moving cylinder; the supporting movable plate is arranged on the slope cutting bottom plate through two slope cutting guide rails, the fixed part of the slope cutting movable cylinder is arranged on the slope cutting bottom plate and located between the two slope cutting guide rails, and the moving part of the slope cutting movable cylinder is fixedly connected with the bottom of the feeding end of the supporting movable plate through a fixed block.

Preferably, the chamfer limiting assembly comprises a limiting portal frame, a limiting adjusting plate and two limiting cylinders; the limiting portal frame is arranged on the supporting and moving plate, and the limiting adjusting plate is arranged on a middle plate of the limiting portal frame through two adjusting guide rods; the two limiting cylinders are respectively arranged on two sides of the feeding end face of the limiting adjusting plate. Further increase the quality of cutting the inclined plane through cutting the spacing subassembly of inclined plane

Preferably, the two limiting cylinders are symmetrically arranged and are in an inverted splayed shape; limiting plates are arranged on the two limiting cylinders; and the limiting plate is provided with a notch matched with the pug. Is convenient for better limiting.

Preferably, the supporting moving plate is provided with a sensing neutral gear; an induction sheet is arranged on the bevel-cutting rotating shaft and positioned in the sensing neutral gear; the induction sheet is matched with the sensor, and the sensor is arranged on the bevel limiting assembly through the sensor fixing plate.

A processing method of a pug for ceramics preparation sequentially comprises the following steps: the support moving plate is driven to move towards the direction of the feeding end by the inclined plane cutting moving cylinder, and the limiting plates on the two limiting cylinders are pressed to the outer surface of the pug to prevent the pug from rotating; the bevel cutting motor drives the bevel cutting rotating shaft to drive the two bevel cutting steel wires on the bevel cutting joint to rotate, and the bevel cutting moving cylinder drives the rotating bevel steel wires to move towards the feeding end so as to cut the bevel of the mud discharging end.

According to the mud material tangent plane device for ceramics preparation, the slope cutting plane moving assembly is convenient for left and right adjustment and movement, so that the depth of the slope is controlled, the stability of mud materials is convenient to maintain in the cutting process through the slope cutting plane limiting assembly, and the quality of the slope cutting plane is prevented from being reduced due to excessive shaking of the mud materials; further cut fast effectually through cutting the inclined plane subassembly, improve and cut inclined plane quality and cut inclined plane efficiency. To sum up, the technical effect of this patent is that cut the scarf automatically and process, improve machining precision and improve machining efficiency.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

The labels in the figures are: the device comprises a bevel cutting bottom plate 50, a bevel cutting moving assembly 51, a support moving plate 511, a sensing neutral block 5111, a bevel cutting moving cylinder 512, a bevel cutting guide rail 513, a bevel cutting limiting assembly 52, a limiting portal frame 521, a limiting adjusting plate 522, a limiting cylinder 523, an adjusting guide rod 5221, a limiting plate 524, a notch 5241, a bevel cutting assembly 53, a bevel cutting motor 531, a bevel cutting rotating shaft 532, a sensing piece 5321, a sensor 5322, a bevel cutting joint 533, a bevel cutting clamping disc 534, a bevel cutting steel wire 535 and a bevel cutting steel wire fixing rod 536.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the drawings, are used only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, a device for cutting a clay material for ceramics comprises a bevel cutting base plate 50, a bevel cutting moving assembly 51, a bevel cutting limiting assembly 52 and a bevel cutting assembly 53; the bevel moving assembly 51 comprises a support moving plate 511 and a bevel moving cylinder 512; the supporting moving plate 511 is arranged on the inclined plane cutting bottom plate 50 through two inclined plane cutting guide rails 513, and a sensing neutral position 5111 is arranged on the supporting moving plate 511; the fixed part of the slope cutting moving cylinder 512 is arranged on the slope cutting bottom plate 50 and is positioned between the two slope cutting guide rails 513, the moving part of the slope cutting moving cylinder 512 is fixedly connected with the bottom of the feed end of the support moving plate 511 through a fixed block, and the support moving plate 511 is driven by the slope cutting moving cylinder 512 to stably move on the slope cutting guide rails 513. The bevel limiting assembly 52 comprises a limiting portal frame 521, a limiting adjusting plate 522 and two limiting cylinders 523; the limiting portal frame 521 is arranged on the support moving plate 511, and the limiting adjusting plate 522 is arranged on a middle plate of the limiting portal frame 521 through two adjusting guide rods 5221; two spacing cylinders 523 symmetry sets up the feeding end at spacing regulating plate 522, and two spacing cylinders 523 are the splayed of falling, cooperate with the mud material through being that the splayed of falling is convenient for better to further stabilize the mud material, prevent to rock the influence cutting accuracy cutting inclined plane in-process taking place. The two limit cylinders 523 are provided with limit plates 524; be provided with on the limiting plate with mud assorted notch 5241, further laminate the matching through the surface of notch 5241 with the mud to carry out better spacing fixed action. The chamfer assembly 53 comprises a chamfer motor 531, a chamfer rotating shaft 532, a chamfer joint 533, a chamfer clamping disc 534 and two chamfer wires 535; the bevel cutting motor 531 is disposed in the middle of the support moving plate 511; the bevel-cutting rotating shaft 532 is arranged on the support moving plate 511 through a plurality of rotating shaft seats, and the discharge end of the bevel-cutting rotating shaft 532 is connected with a bevel-cutting motor 531; the sensing piece 5321 is arranged on the inclined plane cutting rotating shaft 532 and in the sensing neutral position 5111, and the sensing piece 5321 is matched with the sensor 5322 to realize accurate control, so that the inclined plane cutting efficiency and the inclined plane cutting accuracy are improved. The sensor 5322 is arranged on the clamping gantry 521 through a sensor fixing plate; the bevel cutting joint 533 is connected with the feed end of the bevel cutting rotating shaft 532; the bevel clamping disc 534 is arranged on the feeding end face of the bevel joint 533 through the clamping disc rotating shaft, and the bevel clamping disc 534 and the vertical push plate 46 limit the pug in the final stage of bevel cutting, so that the precision of the bevel is ensured better. (ii) a Both sides of the feeding end face of the bevel cutting joint 533 are provided with bevel cutting steel wire fixing rods 536; one end of each of the two beveling steel wires 535 is disposed at the feeding end of the two beveling steel wire fixing rods 536, the other end of each of the two beveling steel wires 535 is disposed at the two sides of the feeding end face of the beveling joint 533, and the two beveling steel wires 535 are symmetrically disposed and are in a splayed shape. Cut the discharge end that the inclined plane steel wire 535 was the effectual cylindrical pug of splayed and cut into the inclined plane form through two, replace the manual work to cut, improve the quality of cutting the inclined plane when improving the efficiency of cutting the inclined plane.

When the device works, the inclined plane cutting moving cylinder 512 drives the support moving plate 511 to move towards the feeding end, and meanwhile, the limiting plates 524 on the two limiting cylinders 523 are pressed to the outer surface of the pug to prevent the pug from rotating; the beveling motor 531 drives the beveling rotating shaft 532 to drive the two beveling steel wires 535 on the beveling joint 533 to rotate, and the beveling moving cylinder 512 drives the rotating bevel steel wires 535 to move towards the feeding end so as to cut the mud discharging end in a beveling way.

The device is convenient for left and right adjustment and movement through the bevel cutting moving component 51, so that the depth of the bevel is controlled, and the bevel is controlled more effectively; the cutting slope limiting assembly 52 is used for keeping the stability of the pug in the cutting process, and the quality of the cutting slope is prevented from being reduced due to excessive shaking of the pug; further effectual cutting fast through cutting inclined plane subassembly 53 replaces the manual work to carry out and cuts the inclined plane, improves and cuts inclined plane quality and cut inclined plane efficiency. To sum up, the technical effect of this patent is that cut the scarf automatically and process, improve machining precision and improve machining efficiency.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention, including any reference to the above-mentioned embodiments. Various modifications to these embodiments will be readily apparent to those skilled in the art. The general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A mud material tangent plane device for ceramics preparation is characterized by comprising a tangent plane bottom plate (50), a tangent plane moving assembly (51), a tangent plane limiting assembly (52) and a tangent plane assembly (53); the bevel cutting moving assembly (51) is arranged on the bevel cutting base plate (50), the bevel cutting limiting assembly (52) and the bevel cutting assembly (53) are arranged on the bevel cutting moving assembly (51), and the bevel cutting moving assembly (51) drives the bevel cutting limiting assembly (52) and the bevel cutting assembly (53) to move; the bevel cutting assembly (53) comprises a bevel cutting motor (531), a bevel cutting rotating shaft (532), a bevel cutting joint (533), a bevel cutting clamping disc (534) and two bevel cutting steel wires (535); the bevel cutting motor (531) is arranged in the middle of the support moving plate (511); the bevel cutting rotating shaft (532) is arranged on the support moving plate (511) through a plurality of rotating shaft seats, and the discharge end of the bevel cutting rotating shaft (532) is connected with a bevel cutting motor (531); the bevel cutting joint (533) is connected with the feed end of the bevel cutting rotating shaft (532); the bevel cutting clamping disc (534) is arranged on the feeding end face of the bevel cutting joint (533) through a clamping disc rotating shaft; both sides of the feeding end surface of the bevel cutting joint (533) are provided with bevel cutting steel wire fixing rods (536); the two bevel cutting steel wires (535) are respectively arranged at the feeding ends of the two bevel cutting steel wire fixing rods (536);

the bevel cutting moving assembly (51) comprises a supporting moving plate (511) and a bevel cutting moving cylinder (512); the supporting moving plate (511) is arranged on the bevel cutting bottom plate (50) through two bevel cutting guide rails (513), the fixed part of the bevel cutting moving cylinder (512) is arranged on the bevel cutting bottom plate (50) and is positioned between the two bevel cutting guide rails (513), and the moving part of the bevel cutting moving cylinder (512) is fixedly connected with the bottom of the feeding end of the supporting moving plate (511) through a fixed block;

the bevel cutting limiting assembly (52) comprises a limiting portal frame (521), a limiting adjusting plate (522) and two limiting cylinders (523); the limiting portal frame (521) is arranged on the support moving plate (511), and the limiting adjusting plate (522) is arranged on a middle plate of the limiting portal frame (521) through two adjusting guide rods (5221); the two limit cylinders (523) are respectively arranged at two sides of the feeding end surface of the limit adjusting plate (522);

the two limiting cylinders (523) are symmetrically arranged and are in an inverted splayed shape; limiting plates (524) are arranged on the two limiting cylinders (523); the limiting plate is provided with a notch (5241) matched with pug;

the supporting moving plate (511) is driven to move towards the direction of the feeding end by the inclined plane cutting moving cylinder (512), and the limiting plates (524) on the two limiting cylinders (523) are pressed to the outer surface of the pug to prevent the pug from rotating; thereby drive through cutting inclined plane motor (531) and cut inclined plane pivot (532) and drive two on the inclined plane joint (533) and cut inclined plane steel wire (535) rotatory, thereby it cuts the inclined plane to move the mud material discharge end with the inclined plane cutting to drive inclined plane steel wire (535) rotatory to the feed end through cutting inclined plane removal cylinder (512).

2. The earthen mud material slicing device as claimed in claim 1, wherein one end of each of said two beveling wires (535) is disposed at the feeding end of each of said two beveling wire fixing rods (536), the other end of each of said two beveling wires (535) is disposed at both sides of the feeding end face of each of said beveling joints (533), and said two beveling wires (535) are symmetrically disposed and have a splayed shape.

3. A clay cutting device for ceramics making according to claim 1, wherein said supporting moving plate (511) is provided with a sensing neutral (5111); an induction sheet (5321) is arranged on the bevel-cutting rotating shaft (532) and in the sensing neutral gear (5111); the induction sheet (5321) is matched with the sensor (5322), and the sensor (5322) is arranged on the chamfer limiting component (52) through a sensor fixing plate.