阅读说明：本技术 一种沸石转轮铣刀设备 (Zeolite runner milling cutter equipment ) 是由 江悌坤 戴晓霞 王彦彪 于 2021-07-26 设计创作，主要内容包括：本发明公开一种沸石转轮铣刀设备,包括机床架、夹具结构、刀具结构以及操作平台；夹具结构和刀具结构均安装在机床架上,操作平台设置在机床架的侧边；本发明的有益效果是：本技术方案利用卧式车床加工工艺和飞轮切割工艺；两者组合成为专项沸石转轮的车铣加工设备；沸石转轮旋转采用减速电机,链条传动方式,车削采用电机驱动的飞轮高速旋转式切割,进刀采用电机驱动的水平直线滑轨；本技术方案大大提高了沸石转轮的加工效率。(The invention discloses zeolite turning wheel milling cutter equipment which comprises a machine tool frame, a clamp structure, a cutter structure and an operating platform, wherein the clamp structure is arranged on the machine tool frame; the clamp structure and the cutter structure are both arranged on the machine frame, and the operating platform is arranged on the side edge of the machine frame; the invention has the beneficial effects that: the technical scheme utilizes a horizontal lathe machining process and a flywheel cutting process; the two are combined into special turning and milling equipment for the zeolite rotating wheel; the zeolite rotating wheel rotates by adopting a speed reducing motor and a chain transmission mode, the turning adopts a flywheel driven by a motor to perform high-speed rotary cutting, and the feed adopts a horizontal linear slide rail driven by the motor; the technical scheme greatly improves the processing efficiency of the zeolite rotating wheel.)

1. A zeolite runner milling cutter equipment which characterized in that: comprises a machine bed frame (2), a clamp structure, a cutter structure and an operating platform; the clamp structure and the cutter structure are both arranged on the machine frame (2), and the operating platform is arranged on the side edge of the machine frame (2);

the machine tool frame (2) is a cuboid frame, the clamp structure comprises a first clamp unit and a second clamp unit, and the first clamp unit and the second clamp unit are respectively arranged on the same side of two long sides of the top of the machine tool frame (2);

the cutter structure comprises a first cutter unit and a second cutter unit, wherein the first cutter unit and the second cutter unit are respectively arranged on two long edges at the top of the machine frame (2); the first cutter unit comprises a first linear track (511), a first cutter platform (512) capable of moving back and forth along the first linear track (511), and a first servo motor (513) for driving the first cutter platform (512) to move; the second cutter unit comprises a second linear track (521), a second cutter platform (522) capable of moving back and forth along the second linear track (521), and a second servo motor (523) for driving the second cutter platform (522) to move.

2. A zeolite wheel mill apparatus as claimed in claim 1, wherein: the first clamp unit comprises a first clamp seat (311) and a first clamp installed at the top of the first clamp seat (311), the first clamp comprises a first clamp plate (312) perpendicular to the top of the first clamp seat (311), a through hole is formed in the middle of the first clamp plate (312), a first air cylinder a (314), a first air cylinder b (315) and a first air cylinder c (316) are further arranged on the first clamp plate (312), the end portions of the first air cylinder a (314), the first air cylinder b (315) and the first air cylinder c (316) can extend towards the center of the through hole, the first air cylinder a (314), the first air cylinder b (315) and the first air cylinder c (316) are in the same plane, and first clamp heads are arranged at the end portions of the first air cylinder a (314), the first air cylinder b (315) and the first air cylinder c (316).

3. A zeolite wheel mill apparatus as claimed in claim 1, wherein: the second clamp unit comprises a second clamp seat (321) and a second clamp installed at the top of the second clamp seat (321), the second clamp comprises a second clamping plate (322) perpendicular to the top of the second clamp seat (321), a through hole is formed in the middle of the second clamping plate (322), a second air cylinder a (324), a second air cylinder b (325) and a second air cylinder c (326) are further arranged on the second clamping plate (322), the ends of the second air cylinder a (324), the second air cylinder b (325) and the second air cylinder c (326) can extend towards the center of the through hole, the second air cylinder a (324), the second air cylinder b (325) and the second air cylinder c (326) are in the same plane, and second clamping heads are arranged at the ends of the second air cylinder a (324), the second air cylinder b (325) and the second air cylinder c (326).

4. A zeolite wheel mill apparatus as claimed in claim 1, wherein: the operating platform comprises a first platform (111) and a second platform (121), the first platform (111) and the second platform (121) are respectively arranged on two sides of the machine frame (2), a first step (112) is further arranged at the end of the first platform (111), and a second step (122) is further arranged at the end of the second platform (121).

5. A zeolite wheel mill apparatus as claimed in claim 4, wherein: the length of the first platform (111) and the second platform (121) is the same as that of the machine tool frame (2).

Technical Field

The invention relates to zeolite rotating wheel processing equipment, in particular to zeolite rotating wheel milling cutter equipment.

Background

In the processing process of the zeolite rotating wheel, particularly in the processing process of a large-scale zeolite rotating wheel, the zeolite rotating wheel needs to be supported, so that the operation requirement on the zeolite rotating wheel is convenient, therefore, a zeolite rotating wheel milling cutter device capable of improving the processing efficiency needs to be developed, and the technical scheme which is the same as that of the zeolite rotating wheel milling cutter device is not found through retrieval.

Disclosure of Invention

The invention mainly solves the technical problem of providing a zeolite turning wheel milling cutter device capable of improving the processing efficiency, and solves one or more of the prior technical problems.

In order to solve the technical problems, the invention adopts a technical scheme that: the zeolite runner milling cutter equipment is characterized in that: comprises a machine tool frame, a clamp structure, a cutter structure and an operating platform; the clamp structure and the cutter structure are both arranged on the machine frame, and the operating platform is arranged on the side edge of the machine frame;

the machine tool frame is a cuboid frame, the clamp structure comprises a first clamp unit and a second clamp unit, and the first clamp unit and the second clamp unit are respectively arranged on the same side of two long sides of the top of the machine tool frame;

the cutter structure comprises a first cutter unit and a second cutter unit, wherein the first cutter unit and the second cutter unit are respectively arranged on two long edges at the top of the machine frame; the first cutter unit comprises a first linear track, a first cutter platform capable of moving back and forth along the first linear track and a first servo motor for driving the first cutter platform to move; the second cutter unit comprises a second linear track, a second cutter platform capable of moving back and forth along the second linear track and a second servo motor for driving the second cutter platform to move.

In some embodiments, the first clamp unit comprises a first clamp seat and a first clamp installed at the top of the first clamp seat, the first clamp comprises a first clamping plate perpendicular to the top of the first clamp seat, a through hole is formed in the middle of the first clamping plate, a first cylinder a, a first cylinder b and a first cylinder c are further arranged on the first clamping plate, the end portions of the first cylinder a, the first cylinder b and the first cylinder c can extend towards the center of the through hole, the first cylinder a, the first cylinder b and the first cylinder c are located in the same plane, and a first clamping head is arranged at the end portions of the first cylinder a, the first cylinder b and the first cylinder c.

In some embodiments, the second clamp unit comprises a second clamp seat and a second clamp installed on the top of the second clamp seat, the second clamp comprises a second clamping plate perpendicular to the top of the second clamp seat, a second through hole is formed in the middle of the second clamping plate, a second cylinder a, a second cylinder b and a second cylinder c are further arranged on the second clamping plate, the ends of the second cylinder a, the second cylinder b and the second cylinder c can extend towards the center of the through hole, the second cylinder a, the second cylinder b and the second cylinder c are in the same plane, and a second chuck is arranged on the ends of the second cylinder a, the second cylinder b and the second cylinder c.

In some embodiments, the operation platform comprises a first platform and a second platform, the first platform and the second platform are respectively arranged at two sides of the machine frame, the end of the first platform is further provided with a first step, and the end of the second platform is further provided with a second step.

In some embodiments, the first and second platforms have a length that is the same as the length of the machine frame.

The invention has the beneficial effects that: the technical scheme utilizes a horizontal lathe machining process and a flywheel cutting process; the two are combined into special turning and milling equipment for the zeolite rotating wheel; the zeolite rotating wheel rotates by adopting a speed reducing motor and a chain transmission mode, the turning adopts a flywheel driven by a motor to perform high-speed rotary cutting, and the feed adopts a horizontal linear slide rail driven by the motor; the technical scheme greatly improves the processing efficiency of the zeolite rotating wheel.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

fig. 1 is a schematic structural diagram of a zeolite rotary milling cutter device of the invention.

Fig. 2 is a schematic structural diagram of a second embodiment of the zeolite wheel milling cutter device of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

As shown in fig. 1, an embodiment of the present invention includes:

a zeolite runner milling cutter device comprises a machine tool frame 2, a clamp structure, a cutter structure and an operation platform; the clamp structure and the cutter structure are both arranged on the machine frame 2, and the operating platform is arranged on the side edge of the machine frame 2;

the machine frame 2 is a cuboid frame, the clamp structure comprises a first clamp unit and a second clamp unit, and the first clamp unit and the second clamp unit are respectively arranged on the same side of two long sides of the top of the machine frame 2;

the cutter structure comprises a first cutter unit and a second cutter unit, wherein the first cutter unit and the second cutter unit are respectively arranged on two long edges at the top of the machine frame 2; the first cutter unit comprises a first linear track 511, a first cutter platform 512 capable of moving back and forth along the first linear track 511, and a first servo motor 513 for driving the first cutter platform 512 to move; the second tool unit includes a second linear rail 521, a second tool platform 522 movable back and forth along the second linear rail 521, and a second servo motor 523 for driving the second tool platform 522 to move.

The first clamp unit comprises a first clamp seat 311 and a first clamp installed at the top of the first clamp seat 311, the first clamp comprises a first clamping plate 312 perpendicular to the top of the first clamp seat 311, a through hole is formed in the middle of the first clamping plate 312, a first cylinder a314, a first cylinder b315 and a first cylinder c316 are further arranged on the first clamping plate 312, the end portions of the first cylinder a314, the first cylinder b315 and the first cylinder c316 can extend to the center of the through hole, the first cylinder a314, the first cylinder b315 and the first cylinder c316 are in the same plane, and the end portions of the first cylinder a314, the first cylinder b315 and the first cylinder c316 are provided with first clamping heads.

The second clamp unit comprises a second clamp seat 321 and a second clamp installed at the top of the second clamp seat 321, the second clamp comprises a second clamping plate 322 perpendicular to the top of the second clamp seat 321, a second through hole is formed in the middle of the second clamping plate 322, a second air cylinder a324, a second air cylinder b325 and a second air cylinder c326 are further arranged on the second clamping plate 322, the end portions of the second air cylinder a324, the second air cylinder b325 and the second air cylinder c326 can extend to the center of the through hole, the second air cylinder a324, the second air cylinder b325 and the second air cylinder c326 are in the same plane, and second clamping heads are arranged at the end portions of the second air cylinder a324, the second air cylinder b325 and the second air cylinder c 326.

Example two

As shown in fig. 1 and 2, an embodiment of the present invention includes:

a zeolite runner milling cutter device comprises a machine tool frame 2, a clamp structure, a cutter structure and an operation platform; the clamp structure and the cutter structure are both arranged on the machine frame 2, and the operating platform is arranged on the side edge of the machine frame 2;

the machine frame 2 is a cuboid frame, the clamp structure comprises a first clamp unit and a second clamp unit, and the first clamp unit and the second clamp unit are respectively arranged on the same side of two long sides of the top of the machine frame 2;

the cutter structure comprises a first cutter unit and a second cutter unit, wherein the first cutter unit and the second cutter unit are respectively arranged on two long edges at the top of the machine frame 2; the first cutter unit comprises a first linear track 511, a first cutter platform 512 capable of moving back and forth along the first linear track 511, and a first servo motor 513 for driving the first cutter platform 512 to move; the second tool unit includes a second linear rail 521, a second tool platform 522 movable back and forth along the second linear rail 521, and a second servo motor 523 for driving the second tool platform 522 to move.

The first clamp unit comprises a first clamp seat 311 and a first clamp installed at the top of the first clamp seat 311, the first clamp comprises a first clamping plate 312 perpendicular to the top of the first clamp seat 311, a through hole is formed in the middle of the first clamping plate 312, a first cylinder a314, a first cylinder b315 and a first cylinder c316 are further arranged on the first clamping plate 312, the end portions of the first cylinder a314, the first cylinder b315 and the first cylinder c316 can extend to the center of the through hole, the first cylinder a314, the first cylinder b315 and the first cylinder c316 are in the same plane, and the end portions of the first cylinder a314, the first cylinder b315 and the first cylinder c316 are provided with first clamping heads.

The second clamp unit comprises a second clamp seat 321 and a second clamp installed at the top of the second clamp seat 321, the second clamp comprises a second clamping plate 322 perpendicular to the top of the second clamp seat 321, a second through hole is formed in the middle of the second clamping plate 322, a second air cylinder a324, a second air cylinder b325 and a second air cylinder c326 are further arranged on the second clamping plate 322, the end portions of the second air cylinder a324, the second air cylinder b325 and the second air cylinder c326 can extend to the center of the through hole, the second air cylinder a324, the second air cylinder b325 and the second air cylinder c326 are in the same plane, and second clamping heads are arranged at the end portions of the second air cylinder a324, the second air cylinder b325 and the second air cylinder c 326.

The operation platform comprises a first platform 111 and a second platform 121, the first platform 111 and the second platform 121 are respectively arranged at two sides of the machine frame 2, a first step 112 is further arranged at the end of the first platform 111, and a second step 122 is further arranged at the end of the second platform 121.

The first and second stages 111 and 121 have the same length as the machine frame 2.

The technical scheme utilizes a horizontal lathe machining process and a flywheel cutting process; the two are combined into special turning and milling equipment for the zeolite rotating wheel; the zeolite rotating wheel rotates by adopting a speed reducing motor and a chain transmission mode, the turning adopts a flywheel driven by a motor to perform high-speed rotary cutting, and the feed adopts a horizontal linear slide rail driven by the motor; the technical scheme greatly improves the processing efficiency of the zeolite rotating wheel.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.