CN214443423U

CN214443423U - Cutting device is used in bearing production with location structure

Info

Publication number: CN214443423U
Application number: CN202120542851.4U
Authority: CN
Inventors: 马艳娟
Original assignee: Linxi Jiuli Machinery Manufacturing Co ltd
Current assignee: Linxi Jiuli Machinery Manufacturing Co ltd
Priority date: 2021-03-16
Filing date: 2021-03-16
Publication date: 2021-10-22
Anticipated expiration: 2031-03-16

Abstract

The utility model relates to the technical field of bearing production and processing, in particular to a cutting device with a positioning structure for bearing production, which comprises a supporting frame, wherein a combined outer frame is arranged at the middle upper position of the supporting frame, hydraulic components are fixed at both sides of the top of the combined outer frame, and a cutting cutter head is arranged in the combined outer frame, in the utility model, through a clamping ring, a spring, an elastic clamping column, a right positioning plate, a left clamp and a right clamp which are arranged, the clamping and positioning can be carried out from both sides of a workpiece by combining the left clamp and the right clamp which are subjected to the transmission action, then the pulled clamping ring pops out from the inside of the left clamp through the spring, and after the position is limited through the block between the elastic clamping column and the right positioning plate, the clamping ring can be positioned from the top end position of the workpiece, at the moment, the arrangement of the clamping ring, the left clamp and the right clamp can realize the positioning of the workpiece from multiple directions, the stability of the later stage workpiece in the machining process can be guaranteed.

Description

Cutting device is used in bearing production with location structure

Technical Field

The utility model relates to a bearing production and processing technology field specifically is a cutting device is used in bearing production with location structure.

Background

The bearing is an important part in the modern mechanical equipment. The main function of the device is to support the mechanical rotator, reduce the friction coefficient in the movement process and ensure the rotation precision, and the device is mainly applied to the fields of metallurgy, wind power, mining machinery, aerospace and the like, and the formed bearing needs to be cut by means of a cutting device in the process of producing and processing the bearing.

When the cutting device on the market is used for cutting the bearing, the positioning modes of the two side ends have certain limitation, the workpiece is extremely easy to arch upwards in the cutting process, and the flying ejection and messy scattering of the material slag can increase the difficulty in surface cleaning operation in the cutting process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cutting device is used in bearing production with location structure to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a cutting device with a positioning structure for bearing production comprises a supporting frame, a combined outer frame is installed at the middle upper position of the supporting frame, hydraulic assemblies are fixed at two side positions of the top of the combined outer frame, a cutting cutter disc is arranged in the combined outer frame, a first motor is fixedly installed at the middle lower position of the combined outer frame, a workpiece is arranged at the middle position of the supporting frame, a left clamp is tightly attached to one side position of the workpiece, a right clamp is arranged at the other side position of the workpiece, a connecting block is fixedly connected to the bottom end positions of the right clamp and the left clamp, a sleeve is fixedly connected to one side position of the bottom of the connecting block through a screw, a lead screw is connected to the middle lower position of the sleeve in an inserting mode, a second motor is fixedly connected to one end of the lead screw, and limiting frames are fixedly installed at two side positions of the bottom of the combined outer frame, and the inside interlude of spacing frame is connected with vertical board, the top position fixedly connected with transverse bar of vertical board, and bottom one side position of vertical board installs the fly leaf, the top position of machined part covers there is the snap ring, and the one end position fixedly connected with spring of snap ring, the top position of left side anchor clamps is fixed with left locating plate, the top position of right side anchor clamps is fixed with right locating plate, the top both sides position of snap ring all installs the elasticity card post.

Preferably, the support frame and the hydraulic assembly are connected in an inserting mode, and the hydraulic assembly and the combined outer frame are perpendicular to each other.

Preferably, the vertical central axis of the cutter disc and the vertical central axis of the workpiece coincide with each other, and the central axis of the cutter disc and the output end of the first motor are connected with each other.

Preferably, left side anchor clamps are symmetry axis and right anchor clamps symmetry setting along the vertical axis of machined part, and embedded connection between left side anchor clamps pass through cavity cell body and the snap ring, fixed connection between the inner wall of left side anchor clamps and the one end of spring, the snap ring passes through elasticity card post and right locating plate block is connected, left side anchor clamps, right anchor clamps are respectively through linking up piece, sleeve and braced frame sliding connection, and link up the piece and pass through sleeve, lead screw and second motor drive connection, the second motor passes through cavity cell body and braced frame built-in connection.

Preferably, the limit frame and the vertical plate are connected to form a nested structure, the vertical plate is rotatably connected with the movable plate through a hinged connecting piece, and the movable plate and the vertical plate are connected to form a V-shaped structure.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the utility model, through the arranged snap ring, the spring, the elastic clamping column, the right positioning plate, the left clamp and the right clamp which are combined to be subjected to the transmission action can carry out clamping and positioning from the positions of two sides of a workpiece, then the pulled snap ring pops out from the inside of the left clamp through the spring, and after the position is limited through the clamping between the elastic clamping column and the right positioning plate, the snap ring can carry out positioning treatment from the top position of the workpiece, at the moment, the positioning of the workpiece is realized from multiple directions through the arrangement of the snap ring, the left clamp and the right clamp, and the stability of the later-stage workpiece in the processing process can be ensured;

2. the utility model discloses in, through spacing frame, vertical board and the fly leaf that sets up, combine to connect under the cup jointing of spacing frame, when the device can assist going on smoothly of whole cutting operation with the help of vertical board gliding setting from top to bottom freely, the device carries out certain collection with the help of "V" shape structure that comprises vertical board and fly leaf to the material sediment that the side takes place to fly to penetrate, reduces the difficulty degree when the later stage carries out the surface cleaning operation effectively.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure at A of FIG. 1 according to the present invention;

fig. 3 is the structural schematic diagram of the left clamp of the present invention.

In the figure: the cutting machine comprises a support frame 1, a combined outer frame 2, a hydraulic assembly 3, a cutting cutter head 4, a first motor 5, a workpiece 6, a left clamp 7, a right clamp 8, a connecting block 9, a sleeve 10, a lead screw 11, a second motor 12, a limiting frame 13, a vertical plate 14, a transverse rod 15, a movable plate 16, a snap ring 17, a spring 18, a left positioning plate 19, a right positioning plate 20 and an elastic clamping column 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution:

a cutting device with a positioning structure for bearing production comprises a supporting frame 1, a combined outer frame 2 is arranged at the middle upper position of the supporting frame 1, hydraulic assemblies 3 are fixed at two side positions of the top of the combined outer frame 2, a cutting cutter head 4 is arranged in the combined outer frame 2, a first motor 5 is fixedly arranged at the middle lower position of the combined outer frame 2, a workpiece 6 is arranged at the middle position of the supporting frame 1, a left clamp 7 is tightly attached to one side position of the workpiece 6, a right clamp 8 is arranged at the other side position of the workpiece 6, a connecting block 9 is fixedly connected to the bottom end positions of the right clamp 8 and the left clamp 7, a sleeve 10 is fixedly connected to one side position of the bottom of the connecting block 9 through a screw, a lead screw 11 is connected to the middle lower position of the sleeve 10 in an inserting manner, a second motor 12 is fixedly connected to one end of the lead screw 11, and limiting frames 13 are fixedly arranged at two side positions of the bottom of the combined outer frame 2, and the inside interlude of spacing frame 13 is connected with vertical plate 14, and the top position fixedly connected with transverse rod 15 of vertical plate 14, and bottom one side position of vertical plate 14 installs fly leaf 16, and the top position of machined part 6 covers has snap ring 17, and the one end position fixedly connected with spring 18 of snap ring 17, and the top position of left anchor clamps 7 is fixed with left locating plate 19, and the top position of right anchor clamps 8 is fixed with right locating plate 20, and the top both sides position of snap ring 17 all installs elasticity card post 21.

The supporting frame 1 and the hydraulic component 3 are connected in an inserting mode, the hydraulic component 3 and the combined outer frame 2 are perpendicular to each other, a workpiece to be machined is arranged in the middle of the supporting frame 1 and is subjected to multidirectional positioning, and then the hydraulic component 3 after being controlled and started can utilize the self to perform longitudinal twitching action to assist the whole device to achieve reciprocating type multiple cutting operation on the workpiece under the matching of inserting connection; the vertical central axis of the cutter disc 4 and the vertical central axis of the workpiece 6 are coincident with each other, and the central axis of the cutter disc 4 is connected with the output end of the first motor 5, when the cutter disc 4 is in contact with the top of the workpiece 6 under the lifting coordination of the hydraulic component 3, the first motor 5 after being controlled and started can carry the cutter disc 4 to rotate through the connecting shaft body under the coordination of the connection and the downward twitching action of the combined outer frame 2, the device realizes the cutting operation of the bearing by means of the acting force generated in the rotating process, and the structure relates to the working principle of the cutting device and is the prior art; the left clamp 7 is symmetrically arranged with the right clamp 8 along the vertical central axis of the workpiece 6, the left clamp 7 is connected with the snap ring 17 through the hollow groove body in an embedded manner, the inner wall of the left clamp 7 is fixedly connected with one end of the spring 18, the snap ring 17 is connected with the right positioning plate 20 through the elastic clamp column 21 in a clamping manner, the left clamp 7 and the right clamp 8 are respectively connected with the supporting frame 1 in a sliding manner through the linking block 9 and the sleeve 10, the linking block 9 is connected with the second motor 12 through the sleeve 10 and the lead screw 11 in a transmission manner, the second motor 12 is connected with the supporting frame 1 through the hollow groove body in an embedded manner, the workpiece to be processed is arranged at the concave position arranged in the middle of the supporting frame 1 in combination, the second motor 12 after controlled starting carries the lead screw 11 to rotate, so that the left clamp 7 and the right clamp 8 after receiving transmission acting force can pass through a close-fitting manner after realizing transverse sliding action, the clamping and positioning are carried out from the positions of the two side ends of the workpiece, then under the cooperation of manual operation, the snap ring 17 subjected to manual traction force is popped out from the inside of the left clamp 7 by virtue of resilience force generated by the spring 18, and after the position is limited by clamping between the elastic clamp column 21 and the right positioning plate 20, the snap ring 17 is positioned from the top end position of the workpiece in a clinging manner, at the moment, the positioning of the workpiece is realized from multiple directions by the arrangement of the snap ring 17, the left clamp 7 and the right clamp 8, and the structure ensures that the whole device has a multi-direction positioning structure and simultaneously positions the workpiece from multiple directions in advance, so that the stability in the later-stage workpiece machining process can be guaranteed; the connection of the limit frame 13 and the vertical plate 14 forms a nested structure, the vertical plate 14 is rotatably connected with the movable plate 16 through a hinged connection piece, the movable plate 16 is connected with the vertical plate 14 to form a V-shaped structure, and before cutting, meanwhile, the bolts penetrating through the limiting frame 13 and the vertical plate 14 are detached, and when certain material slag is generated in the cutting process, under the sleeve connection of the limiting frame 13, the device assists the smooth operation of the whole cutting operation by means of the arrangement that the vertical plate 14 can freely slide up and down, the device can collect the slag flying towards the side end by the V-shaped structure formed by the vertical plate 14 and the movable plate 16, this structure is when making whole device have a dust collecting structure, through collecting the processing to the material sediment from the side position in advance, can reduce the degree of difficulty when the later stage carries out the surface cleaning operation effectively.

The working process is as follows: when the cutting knife disc 4 is contacted with the top of a workpiece 6 under the lifting coordination of the hydraulic assembly 3, under the coordination of the connection and the downward twitching action of the combined outer frame 2, the first motor 5 after controlled starting carries the cutting knife disc 4 to rotate through the connecting shaft body, the device realizes the cutting operation of a bearing by virtue of the acting force generated in the rotating process, the second motor 12 after controlled starting carries the screw rod 11 to rotate, so that the left clamp 7 and the right clamp 8 after being subjected to the transmission acting force can clamp and position from the two side end positions of the workpiece in a clinging mode after realizing the transverse sliding action, then the snap ring 17 after being subjected to the manual traction acting force is popped out from the inside of the left clamp 7 by virtue of the rebounding acting force generated by the spring 18, and after the position is limited by the clamping between the elastic snap column 21 and the right positioning plate 20, the snap ring 17 is used for positioning from the top end of a workpiece in a clinging mode, the workpiece is positioned from multiple directions by the aid of the snap ring 17, the left clamp 7 and the right clamp 8, when certain material slag generated in the cutting process is combined, under the sleeving connection of the limiting frame 13, the device can assist the whole cutting operation to be smoothly carried out by the aid of the vertical plate 14 in a freely up-and-down sliding mode, and meanwhile, the device can carry out certain collection on the material slag subjected to side-end flying jet by the aid of a V-shaped structure formed by the vertical plate 14 and the movable plate 16.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A cutting device with location structure for bearing production, includes braced frame (1), its characterized in that: a combined outer frame (2) is installed at the middle upper position of the supporting frame (1), hydraulic assemblies (3) are fixed at two side positions of the top of the combined outer frame (2), a cutting cutter disc (4) is arranged in the combined outer frame (2), a first motor (5) is fixedly installed at the middle lower position of the combined outer frame (2), a workpiece (6) is arranged at the middle position of the supporting frame (1), a left clamp (7) is tightly attached to one side position of the workpiece (6), a right clamp (8) is arranged at the other side position of the workpiece (6), linking blocks (9) are fixedly connected to the bottom end positions of the right clamp (8) and the left clamp (7), a sleeve (10) is fixedly connected to one side position of the bottom of each linking block (9) through a screw, and a lead screw (11) is alternately connected to the middle lower position of each sleeve (10), the one end fixedly connected with second motor (12) of lead screw (11), the bottom both sides fixed position of combination frame (2) installs spacing frame (13), and the inside interlude of spacing frame (13) is connected with vertical board (14), the top position fixedly connected with transverse bar (15) of vertical board (14), and bottom one side position of vertical board (14) installs fly leaf (16), the top position of machined part (6) covers has snap ring (17), and the one end fixed position of snap ring (17) is connected with spring (18), the top position of left side anchor clamps (7) is fixed with left locating plate (19), the top position of right side anchor clamps (8) is fixed with right locating plate (20), the top both sides position of snap ring (17) all installs elasticity card post (21).

2. The cutting device with the positioning structure for bearing production according to claim 1, wherein: the supporting frame (1) and the hydraulic assembly (3) are connected in a penetrating mode, and the hydraulic assembly (3) and the combined outer frame (2) are perpendicular to each other.

3. The cutting device with the positioning structure for bearing production according to claim 1, wherein: the vertical central axis of the cutting cutter disc (4) and the vertical central axis of the machined part (6) are mutually overlapped, and the central axis of the cutting cutter disc (4) is connected with the output end of the first motor (5).

4. The cutting device with the positioning structure for bearing production according to claim 1, wherein: left side anchor clamps (7) are symmetry axis and right anchor clamps (8) symmetry setting along the vertical axis of machined part (6), and embedded connection between cavity cell body and snap ring (17) is passed through in left side anchor clamps (7), fixed connection between the inner wall of left side anchor clamps (7) and the one end of spring (18), snap ring (17) are connected through elasticity card post (21) and right locating plate (20) block, left side anchor clamps (7), right anchor clamps (8) are respectively through linking up piece (9), sleeve (10) and braced frame (1) sliding connection, and link up piece (9) and pass through sleeve (10), lead screw (11) and second motor (12) transmission and connect, second motor (12) are through cavity cell body and braced frame (1) built-in connection.

5. The cutting device with the positioning structure for bearing production according to claim 1, wherein: the limiting frame (13) and the vertical plate (14) are connected to form a nested structure, the vertical plate (14) is rotatably connected with the movable plate (16) through a hinged connecting piece, and the movable plate (16) and the vertical plate (14) are connected to form a V-shaped structure.