CN109332800B

CN109332800B - Metal locate mode cutting mechanism

Info

Publication number: CN109332800B
Application number: CN201811392913.7A
Authority: CN
Inventors: 孙颖
Original assignee: Dongtai High Tech Innovation Park Co Ltd
Current assignee: Dongtai High Tech Innovation Park Co Ltd
Priority date: 2018-11-21
Filing date: 2018-11-21
Publication date: 2021-03-19
Anticipated expiration: 2038-11-21
Also published as: CN109332800A

Abstract

The invention discloses a metal positioning type cutting mechanism which comprises an upper clamping plate, a lower clamping plate, a connecting ring, a driving column, a cutting assembly and a pressing mechanism, wherein the upper clamping plate is fixedly connected with the lower clamping plate; the positioning screw rod can rotate, contract and abut on the positioning ring and is locked in the positioning ring groove of the pressing ring, so that a locking structure of the positioning ring and the pressing ring is formed, and the expansion block is prevented from accidentally rotating slightly to influence the connection stability.

Description

Metal locate mode cutting mechanism

Technical Field

The invention relates to a metal positioning type cutting mechanism.

Background

At present, a metal plate body or a metal block body needs to be cut and machined at some times, a cutting knife needs to be used for cutting at present, but the cutting at present is fixed on a knife holder, the cutting knife cannot float and stretch on the knife holder, different machining conditions may need different cutting depths, if the cutting knife cannot float and be sleeved, the use range and flexibility are greatly limited, and the invention needs to provide a metal cutting mechanism capable of stretching and floating.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: a metal cutting mechanism with stable connection and telescopic floating is provided.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a metal positioning type cutting mechanism comprises an upper clamping plate, a lower clamping plate, a connecting ring, a driving column, a cutting assembly and a pressing mechanism; the upper clamping plate and the lower clamping plate are respectively arranged in parallel up and down; a connecting ring is arranged between the upper clamping plate and the lower clamping plate; a driving cavity is arranged inside the connecting ring; a plurality of telescopic grooves are uniformly formed in the periphery of the connecting ring; the cutting assembly comprises a cutting knife, a telescopic block and a driving rod; the telescopic grooves of the connecting rings are internally and radially and telescopically provided with a telescopic block respectively; a cutting knife is arranged at the outer side of the telescopic block, and a driving rod is arranged at the inner side of the telescopic block; the driving rod passes through the telescopic groove and extends into the driving cavity of the connecting ring; the lower end of the driving column penetrates into a driving cavity extending to the connecting ring from the upper clamping plate and drives the driving rod to stretch along the radial direction of the connecting ring; the pressing mechanism comprises a pressing ring, a positioning ring, a pressing elastomer and a positioning screw rod; a plurality of positioning rings are arranged on the periphery of the opposite inner sides of the upper clamping plate and the lower clamping plate; the pressing ring is arranged on the outer side of the periphery of the telescopic block; a plurality of abutting elastic bodies are arranged on the outer side of the abutting ring; the outer sides of the abutting elastic bodies respectively abut against the inner side surfaces of the positioning rings; the positioning screw is threaded on the positioning ring; a positioning ring groove is arranged on the outer side of the compression ring; the positioning ring is provided with a threaded hole; the positioning screw rod rotates and stretches on the positioning ring and is abutted and locked in the positioning ring groove of the abutting ring.

Further, the cutting assembly further comprises an externally threaded post; the inner sides of the telescopic grooves of the connecting rings are respectively provided with a thread channel; the inner end of the driving rod is provided with an external thread column; the driving rod is in threaded connection with the threaded channel through the external threaded column at the inner end and extends into the driving cavity.

Furthermore, the cutting assembly also comprises a driving block; the inner end of the external thread column is provided with a driving block; the inner side of the driving block is provided with a fitting wedge-shaped surface; the lower end of the driving column is provided with a driving outer ring surface; the driving outer ring surface is attached to the attachment wedge-shaped surface of the driving block.

Furthermore, the outer driving ring surface at the lower end of the driving column is of a conical structure with a large upper part and a small lower part.

Furthermore, the outer sides of the periphery of the driving column are provided with telescopic external thread ring surfaces; the upper clamping plate is provided with a connecting thread channel; the driving column is rotatably connected in the connecting thread channel of the upper clamping plate through the ring surface of the telescopic external thread.

Furthermore, the driving column is of a circular ring structure; the connecting thread channel on the upper clamping plate is of an annular structure.

Furthermore, the inner side surface of the positioning ring is provided with an outer sleeving column; the outer side surface of the pressing ring is provided with an inner side sleeving column; two ends of the abutting elastic body are respectively sleeved on the outer side sleeving column and the inner side sleeving column.

Furthermore, the upper clamping plate and the lower clamping plate are both in a circular structure.

The invention has the advantages of

The positioning screw rod can rotate, contract and abut in the positioning ring groove of the pressing ring, so that a locking structure of the positioning ring and the pressing ring is formed, and the expansion block is prevented from accidentally rotating slightly to influence the connection stability; according to the invention, the driving column is rotated, the driving outer ring surface of the driving column extrudes the joint wedge-shaped surface of the driving block, so that the driving block and the whole cutting assembly perform telescopic motion along the radial direction of the connecting ring, and the abutting elastic body in the abutting mechanism is utilized to abut against the abutting ring, so that the driving outer ring surface is tightly jointed on the joint wedge-shaped surface of the driving block, and the driving column can drive the driving block more stably.

Drawings

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

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

Fig. 3 is an enlarged schematic view of the cutting assembly of the present invention.

Fig. 4 is an enlarged schematic view of the driving column of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, a metal positioning type cutting mechanism comprises an upper clamping plate 1, a lower clamping plate 2, a connecting ring 3, a driving column 5, a cutting assembly 4 and a pressing mechanism 6; the upper clamping plate 1 and the lower clamping plate 2 are respectively arranged in parallel up and down; a connecting ring 3 is arranged between the upper splint 1 and the lower splint 2; a driving cavity 33 is arranged inside the connecting ring 3; a plurality of telescopic grooves 31 are uniformly formed around the connecting ring 3; the cutting assembly 4 comprises a cutting knife 42, a telescopic block 41 and a driving rod 43; a telescopic block 41 is respectively and radially and telescopically arranged in the telescopic groove 31 of the connecting ring 3; a cutting knife 42 is arranged at the outer side of the telescopic block 41, and a driving rod 43 is arranged at the inner side of the telescopic block 41; the driving rod 43 passes through the telescopic slot 31 and extends into the driving cavity 33 of the connecting ring 3; the lower end of the driving column 5 penetrates into the driving cavity 33 extending to the connecting ring 3 from the upper clamping plate 1 and the lower end of the driving column 5 drives the driving rod 43 to extend and retract along the radial direction of the connecting ring 3; the pressing mechanism 6 comprises a pressing ring 61, a positioning ring 62, a pressing elastic body 63 and a positioning screw rod 64; a plurality of positioning rings 62 are arranged on the periphery of the opposite inner sides of the upper clamping plate 1 and the lower clamping plate 2; the pressing ring 61 is arranged on the outer side of the periphery of the telescopic block 41; a plurality of abutting elastic bodies 63 are arranged on the outer side of the abutting ring 61; the outer sides of the abutting elastic bodies 63 abut against the inner side surfaces of the positioning rings 62 respectively; the positioning screw 64 is threaded on the positioning ring 62; the outer side of the pressing ring 61 is provided with a positioning ring groove 612; the positioning ring 62 is provided with a threaded hole; the positioning screw 64 rotates and contracts on the positioning ring 62 and abuts and is locked in the positioning ring groove 612 of the pressing ring 61.

As shown in fig. 1 to 4, it is further preferable that the cutting assembly 4 further includes an externally threaded post 44 for facilitating the installation and removal of the driving rod 43 and the telescopic slot 31; the inner sides of the telescopic grooves 31 of the connecting ring 3 are respectively provided with a thread channel 32; the inner end of the driving rod 43 is provided with an external thread column 44; the drive rod 43 is threaded through the threaded passage 32 and extends into the drive chamber 33 through an externally threaded post 44 at the inner end. Further preferably, the cutting assembly 4 further comprises a driving block 45; the inner end of the external thread column 44 is provided with a driving block 45; the inner side of the driving block 45 is provided with a bonding wedge-shaped surface 451; the lower end of the driving column 5 is provided with a driving outer ring surface 51; the outer driving ring surface 51 is attached to the attachment wedge surface 451 of the driving block 45. More preferably, the outer driving ring surface of the lower end of the driving column 5 has a tapered structure with a large top and a small bottom. Preferably, the outer side of the periphery of the driving column 5 is provided with a telescopic external thread ring surface; the upper clamping plate 1 is provided with a connecting thread channel; the driving column 5 is rotatably connected in the connecting thread channel of the upper clamping plate 1 through a telescopic external thread ring surface. Further preferably, the driving column 5 is in a circular ring structure; the connecting thread channel on the upper splint 1 is in an annular structure. Further preferably, an outer sleeving column 621 is arranged on the inner side surface of the positioning ring 62; the outer side surface of the pressing ring 61 is provided with an inner side sleeving column 611; the two ends of the abutting elastic body 63 are respectively sleeved on the outer side sleeving column 621 and the inner side sleeving column 611. The abutting elastic body 63 presses the abutting ring 61 inward, so that the telescopic block 41 extends to press the connecting ring 3 radially inward, and the driving outer ring surface 51 and the bonding wedge surface 451 of the driving block 45 are tightly bonded. Further preferably, the upper splint 1 and the lower splint 2 are both in a circular structure.

The positioning screw rod 64 can rotate, contract and abut on the positioning ring 62 and is locked in the positioning ring groove 612 of the abutting ring 61, so that a locking structure of the positioning ring 62 and the abutting ring 61 is formed, and the telescopic block 41 is prevented from accidentally slightly rotating to influence the connection stability; according to the invention, the driving column 5 is rotated, the driving outer ring surface 51 of the driving column 5 extrudes the attaching wedge-shaped surface 451 of the driving block 45, so that the driving block 45 and the whole cutting assembly 4 perform telescopic motion along the radial direction of the connecting ring 3, the abutting elastomer 63 in the abutting mechanism 6 is utilized to abut against the abutting ring 61, and further the driving outer ring surface 51 is tightly attached to the attaching wedge-shaped surface 451 of the driving block 45, so that the driving block 45 is driven more stably by the driving column 5, the radial floating of the cutting knife 42 can be realized, and the adjustment of the cutting depth is realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A metal positioning type cutting mechanism is characterized by comprising an upper clamping plate, a lower clamping plate, a connecting ring, a driving column, a cutting assembly and a pressing mechanism; the upper clamping plate and the lower clamping plate are respectively arranged in parallel up and down; a connecting ring is arranged between the upper clamping plate and the lower clamping plate; a driving cavity is arranged inside the connecting ring; a plurality of telescopic grooves are uniformly formed in the periphery of the connecting ring; the cutting assembly comprises a cutting knife, a telescopic block and a driving rod; the telescopic grooves of the connecting rings are internally and radially and telescopically provided with a telescopic block respectively; a cutting knife is arranged at the outer side of the telescopic block, and a driving rod is arranged at the inner side of the telescopic block; the driving rod passes through the telescopic groove and extends into the driving cavity of the connecting ring; the lower end of the driving column penetrates into a driving cavity extending to the connecting ring from the upper clamping plate and drives the driving rod to stretch along the radial direction of the connecting ring; the pressing mechanism comprises a pressing ring, a positioning ring, a pressing elastomer and a positioning screw rod; a plurality of positioning rings are arranged on the periphery of the opposite inner sides of the upper clamping plate and the lower clamping plate; the pressing ring is arranged on the outer side of the periphery of the telescopic block; a plurality of abutting elastic bodies are arranged on the outer side of the abutting ring; the outer sides of the abutting elastic bodies respectively abut against the inner side surfaces of the positioning rings; the positioning screw is threaded on the positioning ring; a positioning ring groove is arranged on the outer side of the compression ring; the positioning ring is provided with a threaded hole; the positioning screw rod rotates and stretches on the positioning ring and is abutted and locked in the positioning ring groove of the pressing ring; the cutting assembly further comprises an externally threaded post; the inner sides of the telescopic grooves of the connecting rings are respectively provided with a thread channel; the inner end of the driving rod is provided with an external thread column; the driving rod is in threaded connection with the threaded channel through the external threaded column at the inner end and extends into the driving cavity; the outer sides of the periphery of the driving column are provided with telescopic external thread ring surfaces; the upper clamping plate is provided with a connecting thread channel; the driving column is rotatably connected in the connecting thread channel of the upper clamping plate through the ring surface of the telescopic external thread.

2. The metal positioning cutting mechanism of claim 1, wherein said cutting assembly further comprises a drive block; the inner end of the external thread column is provided with a driving block; the inner side of the driving block is provided with a fitting wedge-shaped surface; the lower end of the driving column is provided with a driving outer ring surface; the driving outer ring surface is attached to the attachment wedge-shaped surface of the driving block.

3. The metal positioning cutting mechanism as defined in claim 1, wherein said outer driving ring surface of said lower end of said driving post is formed in a tapered configuration having a larger upper portion and a smaller lower portion.

4. The metal positioning cutting mechanism of claim 1, wherein the drive post is a circular ring structure; the connecting thread channel on the upper clamping plate is of an annular structure.

5. The metal positioning cutting mechanism as recited in claim 1, wherein an outer sleeve post is disposed on an inner side of said positioning ring; the outer side surface of the pressing ring is provided with an inner side sleeving column; two ends of the abutting elastic body are respectively sleeved on the outer side sleeving column and the inner side sleeving column.

6. The metal positioning cutting mechanism of claim 1, wherein the upper and lower clamp plates are each of circular configuration.