CN217702276U - Gear shaft cover processing equipment - Google Patents

Abstract

The utility model relates to the technical field of gear shaft cover processing equipment, in particular to gear shaft cover processing equipment, which comprises a tool rest component, a drilling component, a clamp motor and a positioning tool; the output end of the clamp motor is detachably connected with the gear shaft cover; the positioning tool comprises a tool table, a supporting plate and a driving motor; the fixture motor, the supporting plate and the driving assembly are all arranged on the tooling table, and the output end of the driving assembly is fixedly connected with the supporting plate so as to drive the supporting plate to be close to or far away from the gear shaft cover; the tool rest component is provided with a rotating motor and at least one turning tool; the turning cutter is fixed on a rotating shaft of the rotating motor; the drilling assembly is provided with a drill bit and a drilling motor; the drill bit is fixedly connected with the output end of the drilling motor; the rotating motor and the drilling motor are both arranged on the supporting plate; when drive assembly promoted the drill bit and was close to the tooth shaft lid with the turning sword, the tool bit alternative and the tooth shaft lid contact of drill bit and turning sword, through the utility model discloses can improve tooth shaft lid machining efficiency.

Description

Gear shaft cover processing equipment

Technical Field

The utility model relates to a gear shaft cover processing equipment technical field, concrete field is a gear shaft cover processing equipment.

Background

The gear shaft cover is a mechanical part for fixing the gear shaft in the door closer and is in a cylindrical cover-shaped structure. During machining, the prior art firstly fixes the gear shaft cover on different machine tools, then respectively machines the plane, the chamfer and the drill hole of the gear shaft cover, and the gear shaft cover rotates and changes among different procedures, so that the labor intensity of workers is seriously increased, the machining steps are also increased, and the production efficiency of a factory is low.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a gear shaft lid processing equipment, it can improve gear shaft lid machining efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: a gear shaft cover machining device is used for machining a gear shaft cover and comprises a tool rest assembly, a drilling assembly, a clamp motor and a positioning tool;

the output end of the clamp motor is detachably connected with the gear shaft cover;

the positioning tool comprises a tool table, a supporting plate and a driving motor; the fixture motor, the supporting plate and the driving assembly are all arranged on the tooling table, and the output end of the driving assembly is fixedly connected with the supporting plate so as to drive the supporting plate to be close to or far away from the gear shaft cover;

the tool rest assembly is provided with a rotating motor and at least one turning tool; the turning cutter is fixed on a rotating shaft of the rotating motor; the drilling assembly is provided with a drill bit and a drilling motor; the drill bit is fixedly connected with the output end of the drilling motor;

the rotating motor and the drilling motor are both arranged on the supporting plate; when the driving component pushes the drill bit and the turning cutter to be close to the gear shaft cover, one of the cutter heads of the drill bit and the turning cutter is in contact with the gear shaft cover.

Preferably, the turning tool comprises a chamfering tool and a turning tool; the direction of the tool bit of the chamfering tool is different from the direction of the tool bit of the turning tool.

Preferably, the number of the drill bits is two, the two drill bits are located at the same horizontal height and are symmetrically arranged at the output end of the drilling motor, and the two drill bits rotate synchronously when the drilling motor works.

Preferably, the horizontal height of the drill bit and the horizontal height of the turning tool bit are the same as the horizontal height of the rotating shaft of the clamp motor.

Preferably, the support plate includes a first fixing plate and a second fixing plate; the first fixing plate is connected with the tool table in a sliding mode, and the sliding direction of the first fixing plate is the same as the length direction of the tool table; the second fixing plate is arranged at the upper end of the first fixing plate in a frame mode, and is connected with the first fixing plate in a sliding mode, and the sliding direction is perpendicular to the length direction of the tool table; the rotary motor and the drilling motor are both arranged at the upper end of the second fixing plate, and the rotary motor is positioned at the rear side of the drilling motor; the driving assembly comprises a first lead screw and a second lead screw; the output end of the first lead screw is fixedly connected with the second fixing plate; the output end of the second lead screw is fixedly connected with the first fixing plate.

Preferably, the axis of the output end of the clamp motor is parallel to the length direction of the tool table.

Preferably, the device also comprises a controller; the rotating motor, the clamp motor, the drilling motor, the first lead screw and the second lead screw are all electrically connected with the controller.

Preferably, the number of the chamfering tools is two, and the tool bits of the two chamfering tools are different in orientation.

Preferably, the device also comprises a frame; the lower end of the tool table is fixedly connected with the upper end of the rack.

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

1. the turning tool, the chamfering tool and the double drill bits are integrated on the machine tool, and the plane, chamfering and drilling can be orderly carried out on the gear shaft cover through the cooperation of the control fixture tool and the positioning tool, so that the processing efficiency of the gear shaft cover is improved, the labor intensity of workers is reduced, and the production efficiency of a factory is also improved;

2. two drill bits are additionally arranged on the drilling assembly, the two drill bits are arranged on one driving motor, the horizontal heights of the two drill bits are also the same, and the two drill bits rotate synchronously when the motor works, so that two holes can be drilled at one time during drilling, and the workpiece machining efficiency is increased.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the tool holder assembly of the present invention;

fig. 3 is a schematic structural view of the drilling assembly of the present invention;

FIG. 4 is a schematic view of the structure of the fixture of the present invention;

FIG. 5 is a schematic view of the positioning tool of the present invention;

fig. 6 is a schematic view of the gear shaft cover structure of the present invention.

In the figure: 1, a tool rest assembly, 101 a rotating motor, 102 a rotating seat, 103 a turning tool and 104 a chamfering tool;

2 drilling assembly, 201 drill bit, 202 drilling motor;

3, fixture tooling, 301 fixture motor, 302 chuck and 303 mounting seat;

4, positioning a tool, 401, a tool table, 402, a first fixing plate, 403, a second fixing plate, 404, a first lead screw and 405, wherein the first lead screw is fixed on the first fixing plate;

5, a frame; 6 gear shaft cover.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings to make it clear to those skilled in the art how to practice the invention. While the invention has been described in connection with its preferred embodiments, these embodiments are intended to be illustrative, and not limiting, of the scope of the invention.

The first embodiment is as follows: referring to fig. 1-5, a gear shaft cover machining apparatus for machining a gear shaft cover 6 includes a tool rest assembly 1, a drilling assembly 2, a fixture 3, a positioning fixture 4, and a frame 5.

The tool rest assembly 1 comprises a rotating motor 101, a rotating seat 102, a turning tool 103 and a chamfering tool 104; the output end of the rotating motor 101 is provided with a fixed seat, and the rotating seat 102 is installed at the upper end of the fixed seat and is fixedly connected with the output shaft of the rotating motor 101; the turning tool 103 and the chamfering tool 104 are mounted on the rotating base, in this embodiment, the turning tool 103 and the chamfering tool 104 are located on the same horizontal plane, and the tool bits of the turning tool 103 and the tool bits of the chamfering tool 104 are in different directions; the number of the chamfering tools 104 is two, and the directions of the tool bits of the two chamfering tools 104 are different; the rotating motor 101 is a stepping motor, and when the rotating motor 101 works, the rotating motor 101 drives the rotating base 102 to rotate relative to the fixed base so as to adjust the directions of the turning tool 103 and the chamfering tool 104.

The drilling assembly 2 comprises a drill bit 201 and a drilling motor 202; the drill bit 201 is mounted at the output of the drill motor 202. The number of the drill bits 201 is two, and the two drill bits are the same in type and are symmetrically installed at the output end of the drilling motor 202.

The clamp tool 3 comprises a clamp motor 301, a clamping head 302 and a mounting seat 303; the clamp motor 301 is arranged on the mounting seat 303, the output end of the clamp motor 301 extends to the right side of the mounting seat 303, and the chuck 302 is arranged at the output end of the clamp motor 301; in this embodiment, when the pinion cover 6 is machined, the pinion cover 6 is embedded in the chuck 302, and the clamp motor 301 rotates the pinion cover 6.

The positioning tool 4 comprises a tool table 401, a first fixing plate 402, a second fixing plate 403, a first lead screw 404 and a second lead screw 405; the lower end of the tooling table 401 is fixedly connected with the upper end of the rack 5; the first fixing plate 402 is erected on the tooling table 401, the first fixing plate 402 is connected with the tooling table 401 in a sliding mode, and the sliding direction is the same as the length direction of the tooling table 401; the second fixing plate 403 is erected at the upper end of the first fixing plate 402, the second fixing plate 403 is connected with the first fixing plate 402 in a sliding manner, and the sliding direction is perpendicular to the length direction of the tooling table 401; the first lead screw 404 is mounted on the first fixing plate 402, the output end of the first lead screw is fixedly connected with the rear end of the second fixing plate 403, and when the first lead screw 404 works, the second fixing plate 403 can be driven to move back and forth on the upper end of the first fixing plate 402; the second lead screw 405 is installed at the front end of the tooling platform 401, the output end of the second lead screw is fixedly connected with the front end of the first fixing plate 402, and the second lead screw 405 can drive the first fixing plate 402 to move horizontally on the tooling platform 401.

In the embodiment, the tool rest assembly 1 and the drilling assembly 2 are both arranged at the upper end of the second fixing plate 403, and the tool rest assembly 1 and the drilling assembly 2 are arranged at opposite sides; the lower end of the fixing base and the lower end of the drilling motor 202 are both fixedly connected with the upper end of the second fixing plate 403.

In this embodiment, the horizontal heights of the turning tool 103, the chamfering tool 104, and the drill 201 are the same, and the horizontal height of the turning tool 103 is also the same as the horizontal height of the shaft center of the output shaft of the jig motor 301. The axis of the output shaft of the clamp motor 301 is parallel to the longitudinal direction of the tool table 401.

Preferably, the rotating motor 101, the clamp motor 301, the drilling motor 202, the first lead screw 404 and the second lead screw 405 are electrically connected with a controller, and the controller controls the rotating motor 101 to drive the rotating base 103 to rotate so as to mutually switch the turning tool 103 and the chamfering tool 104; the controller controls the clamp motor 301 to drive the gear shaft cover 6 to rotate; the controller controls the drilling motor 202 to drive the drill bit 201 to rotate for drilling; the controller controls the first lead screw 404 to drive the tool rest assembly 1 and the drilling assembly 2 to move back and forth; the controller controls the second lead screw 405 to drive the tool rest assembly 1 and the drilling assembly 2 to translate left and right.

The working principle of the device is explained as follows: firstly, mounting the gear shaft cover 6 on the chuck 302 and clamping the chuck, and then driving the gear shaft cover 6 to rotate by the action of the clamp motor 301; the first lead screw 404 acts to push the tool rest assembly 1 to be close to the clamp tooling 3; the turning tool 103 is aligned to the gear shaft cover 6 by the action of the rotating motor 101; the second lead screw 405 acts to draw the tool rest assembly 1 towards the fixture tool 3 so that the turning tool 103 is in contact with the periphery of the gear shaft cover 6 to form a plane; after the plane is finished, the second lead screw 405 acts to pull the tool rest assembly 1 to be far away from the clamp tool 3; the rotating motor 101 acts to align the chamfering tool 104 with the gear shaft cover 6; the second lead screw 405 acts to draw the tool rest assembly 1 towards the clamp tooling 3 so that the chamfering tool 104 is in contact with the periphery of the gear shaft cover 6 for chamfering; after chamfering is finished, the clamp motor 301 is stopped, the second lead screw 405 acts to pull the tool rest assembly 1 to be far away from the clamp tool 3, and meanwhile, the first lead screw 404 acts to pull the drilling assembly 2 to be close to the clamp tool 3 and enable the drill bit 2 to be aligned with the gear shaft cover 6; the second lead screw 405 moves to pull the drilling assembly 2 to be close to the clamp tool 3, so that the drill bit 2 contacts the gear shaft cover 6; the drilling motor 202 acts, the drill bit 2 rotates to start drilling, and meanwhile the second lead screw 405 slowly pushes the drilling assembly 2 to the clamp tool 3 according to the drilling depth until the drilling is finished, and three processes are completed.

Through this technical scheme, with lathe tool 103, chamfer sword 104 and two drill bit integration to the lathe on, through control anchor clamps frock 3 and location frock 4 in coordination, can carry out plane, chamfer and drilling to tooth axle cap 6 in an orderly manner, improved tooth axle cap machining efficiency, reduced artifical intensity of labour.

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 (9)

1. The utility model provides a pinion cover processing equipment for processing pinion cover (6), its characterized in that: the drilling tool comprises a tool rest component (1), a drilling component (2), a clamp motor (301) and a positioning tool (4);

the output end of the clamp motor (301) is detachably connected with the gear shaft cover (6);

the positioning tool (4) comprises a tool table (401), a supporting plate and a driving motor; the clamp motor (301), the supporting plate and the driving assembly are all arranged on the tool table (401), and the output end of the driving assembly is fixedly connected with the supporting plate so as to drive the supporting plate to be close to or far away from the gear shaft cover (6);

the tool rest assembly (1) is provided with a rotating motor (101) and at least one turning tool; the turning cutter is fixed on a rotating shaft of the rotating motor (101); the drilling assembly (2) is provided with a drill bit (201) and a drilling motor (202); the drill bit (201) is fixedly connected with the output end of the drilling motor (202);

the rotating motor (101) and the drilling motor (202) are both arranged on the supporting plate; when the driving assembly pushes the drill bit (201) and the turning cutter to be close to the gear shaft cover (6), one of the bit (201) and the cutting head of the turning cutter is selected to be in contact with the gear shaft cover (6).

2. The gear shaft cover processing equipment according to claim 1, wherein: the turning tool comprises a chamfer tool (104) and a turning tool (103); the direction of the tool bit of the chamfering tool (104) is different from the direction of the tool bit of the turning tool (103).

3. The gear shaft cover processing equipment according to claim 1, wherein: the drilling machine is characterized in that the number of the drill bits (201) is two, the two drill bits (201) are located at the same horizontal height, the two drill bits (201) are symmetrically arranged at the output end of the drilling motor (202), and the two drill bits (201) synchronously rotate when the drilling motor (202) works.

4. The gear shaft cover processing equipment according to claim 1, wherein: the horizontal height of the drill bit (201) and the horizontal height of the tool bit of the turning tool are the same as the horizontal height of the rotating shaft of the clamp motor (301).

5. The gear shaft cover machining apparatus according to claim 1, wherein: the support plate comprises a first fixing plate (402) and a second fixing plate (403); the first fixing plate (402) is connected with the tool table (401) in a sliding mode, and the sliding direction is the same as the length direction of the tool table (401); the second fixing plate (403) is erected at the upper end of the first fixing plate (402), the second fixing plate (403) is connected with the first fixing plate (402) in a sliding mode, and the sliding direction is perpendicular to the length direction of the tooling table (401); the rotating motor (101) and the drilling motor (202) are both arranged at the upper end of the second fixing plate (403), and the rotating motor (101) is positioned at the rear side of the drilling motor (202); the driving assembly comprises a first lead screw (404) and a second lead screw (405); the output end of the first lead screw (404) is fixedly connected with the second fixing plate (403); the output end of the second lead screw (405) is fixedly connected with the first fixing plate (402).

6. The gear shaft cover processing apparatus according to claim 5, wherein: the axis of the output end of the clamp motor (301) is parallel to the length direction of the tool table (401).

7. The gear shaft cover processing apparatus according to claim 5, wherein: the device also comprises a controller; the rotary motor (101), the clamp motor (301), the drilling motor (202), the first lead screw (404) and the second lead screw (405) are all electrically connected with the controller.

8. The gear shaft cover machining apparatus according to claim 2, wherein: the number of the chamfering tools (104) is two, and the tool bits of the two chamfering tools (104) are different in direction.

9. The gear shaft cover processing equipment according to claim 1, wherein: also comprises a frame (5); the lower end of the tooling table (401) is fixedly connected with the upper end of the rack (5).

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