CN220462491U - Full-automatic gear shaft numerical control chamfering machine - Google Patents

Abstract

The utility model relates to the technical field of chamfering machines, in particular to a full-automatic gear shaft numerical control chamfering machine which comprises a positioning assembly and a chamfering assembly, wherein the chamfering assembly is arranged above the positioning assembly, the positioning assembly consists of a mounting sleeve, an anti-slip pad, a supporting table, a first telescopic cylinder, a first electric linear sliding rail, a first movable seat and a mounting table, the first telescopic cylinder is arranged in the mounting sleeve, the supporting table is arranged at the upper end of the first telescopic cylinder, the anti-slip pad is arranged at the upper end of the supporting table, a plurality of groups of first electric linear sliding rails are arranged outside the mounting sleeve, the first movable seat is arranged on the first electric linear sliding rail, the mounting table is arranged at the upper end of the first movable seat, and the chamfering assembly consists of a mounting frame, a rotary table, a limiting rod, a second telescopic cylinder, a rotary motor, a second movable seat, a chamfering motor and a chamfering cutter.

Description

Full-automatic gear shaft numerical control chamfering machine

Technical Field

The utility model relates to the technical field of chamfering machines, in particular to a full-automatic gear shaft numerical control chamfering machine.

Background

The gear shaft is poor in stability during clamping due to the circular structure during chamfering, machining accuracy is affected, and the position of equipment is required to be adjusted in a halt mode aiming at gear shafts of different sizes, so that operation is complex.

Therefore, a fully automatic gear shaft numerical control chamfering machine needs to be designed to solve the problems in the prior art.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and provides a full-automatic gear shaft numerical control chamfering machine.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a full-automatic gear shaft numerical control chamfering machine, includes locating component and chamfer subassembly, the locating component top is equipped with the chamfer subassembly, the locating component comprises installation cover, slipmat, brace table, first flexible cylinder, first electronic linear slide rail, first removal seat and mount table, just be equipped with first flexible cylinder in the installation cover, first flexible cylinder upper end is equipped with the brace table, the brace table upper end is equipped with the slipmat, the installation cover outside is equipped with the first electronic linear slide rail of multiunit, be equipped with first removal seat on the first electronic linear slide rail, first removal seat upper end is equipped with the mount table, the chamfer subassembly comprises mounting bracket, carousel, gag lever post, second flexible cylinder, rotating electrical machine, second electronic linear slide rail, second removal seat, chamfer motor and chamfer sword, just the mounting bracket outside is equipped with gag lever post and second flexible cylinder, the department is equipped with rotating electrical machine in the middle of the mounting bracket lower extreme, the carousel middle part is equipped with the second electronic linear slide rail, second electronic linear slide rail lower extreme is connected with the second motor, the chamfer seat lower extreme is equipped with chamfer department.

As a preferable scheme of the utility model, the mounting sleeve is connected with the first telescopic cylinder in a sleeved mode and is locked in a limiting mode through bolts, and the first telescopic cylinder is connected with the supporting table through bolts.

As a preferable scheme of the utility model, a plurality of groups of mounting tables are connected with the gears through clamping.

As a preferable scheme of the utility model, the second telescopic cylinder is connected with the mounting frame through bolts.

As a preferable scheme of the utility model, the limiting rod is connected with the turntable through sleeve connection.

As a preferable scheme of the utility model, the rotating motor is connected with the mounting frame and the second electric linear slide rail through bolts.

In summary, the technical effects and advantages of the present utility model are: this full-automatic gear shaft numerical control beveler, before the chamfer, put the gear shaft that will process between multiunit mount table, the mount table is along first electronic linear slide rail back-and-forth movement, can press from both sides the gear shaft tightly, and the brace table can be in the middle of gear shaft lower extreme department effective support, and the slipmat can improve the stability of gear shaft, and during operation, accessible second electronic linear slide rail drives chamfer sword lateral shifting, and the rotating electrical machines drives chamfer sword horizontal rotation, is applicable to the chamfer of equidimension and shape.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a block diagram of a chamfer assembly of the present utility model;

FIG. 3 is a block diagram of a positioning assembly of the present utility model.

In the figure: 1. a positioning assembly; 101. a mounting sleeve; 102. an anti-slip pad; 103. a support table; 104. a first telescopic cylinder; 105. the first electric linear slide rail; 106. a first movable seat; 107. a mounting table; 2. chamfering component; 201. a mounting frame; 202. a turntable; 203. a limit rod; 204. the second telescopic cylinder; 205. a rotating electric machine; 206. the second electric linear slide rail; 207. a second movable seat; 208. chamfering motor; 209. chamfering tool.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-3, the full-automatic gear shaft numerical control chamfering machine comprises a positioning component 1 and a chamfering component 2, wherein the chamfering component 2 is arranged above the positioning component 1, the positioning component 1 is composed of a mounting sleeve 101, an anti-slip pad 102, a supporting table 103, a first telescopic cylinder 104, a first electric linear sliding rail 105, a first moving seat 106 and a mounting table 107, the first telescopic cylinder 104 is arranged in the mounting sleeve 101, the supporting table 103 is arranged at the upper end of the supporting table 103, a plurality of groups of first electric linear sliding rails 105 are arranged outside the mounting sleeve 101, the first electric linear sliding rail 105 is provided with the first moving seat 106, the mounting table 107 is arranged at the upper end of the first moving seat 106, the chamfering component 2 is composed of a mounting frame 201, a turntable 202, a limiting rod 203, a second telescopic cylinder 204, a rotating motor 205, a second electric linear sliding rail 206, a second moving seat 207, a chamfering motor 208 and a chamfering tool 209, the limiting rod 203 and the second telescopic cylinder 204 are arranged outside the mounting frame 201, the rotating motor 205 is arranged in the middle of the lower end, the rotating motor 205 is connected with the lower end of the rotating disk 202, the lower end of the second electric sliding rail 206 is connected with the lower end of the second linear sliding rail 206, and the lower end of the chamfering tool 208 is connected with the second linear sliding rail 206.

Referring to fig. 1 and 3, the stability is relatively poor during the clamping due to the circular structure when the gear shaft is chamfered, the processing precision is affected, and the position of the equipment is required to be regulated by stopping for the gear shafts with different sizes, the operation is complex, the mounting sleeve 101 and the first telescopic cylinder 104 are connected through the sleeve joint and are locked through the bolt limit, the first telescopic cylinder 104 is connected with the supporting table 103 through the bolt, the plurality of groups of mounting tables 107 and the gears are connected through the clamping, the gear shaft required to be processed is placed between the plurality of groups of mounting tables 107 before chamfering, the mounting tables 107 move back and forth along the first electric linear sliding rail 105, the gear shaft can be clamped, the supporting table 103 can form effective support at the middle of the lower end of the gear shaft, and the anti-skid pad 102 can improve the stability of the gear shaft.

Referring to fig. 1 and 2, the second telescopic cylinder 204 is connected with the mounting frame 201 through a bolt, the limiting rod 203 is connected with the rotary table 202 through a sleeve, the rotary motor 205 is connected with the mounting frame 201 and the second electric linear sliding rail 206 through bolts, the second telescopic cylinder 204 can drive the whole to move up and down, so that the distance from the chamfering tool 209 to the gear shaft is adjusted, during operation, the chamfering tool 209 is driven to move transversely through the second electric linear sliding rail 206, and the rotary motor 205 drives the chamfering tool 209 to rotate horizontally, so that the chamfering tool is suitable for chamfering with different sizes and shapes.

Working principle: the installation sleeve 101 of the full-automatic gear shaft numerical control chamfering machine is connected with the first telescopic cylinder 104 through a sleeve joint and is locked through a bolt in a limiting mode, the first telescopic cylinder 104 is connected with the supporting table 103 through a bolt, a plurality of groups of installation tables 107 are connected with gears through clamping, before chamfering, a gear shaft to be machined is placed between the plurality of groups of installation tables 107, the installation tables 107 move back and forth along the first electric linear sliding rail 105, the gear shaft can be clamped, the supporting table 103 can form effective support at the middle of the lower end of the gear shaft, the anti-slip pad 102 can improve stability of the gear shaft, the second telescopic cylinder 204 is connected with the mounting frame 201 through a bolt, the limiting rod 203 is connected with the turntable 202 through a sleeve joint, the rotary motor 205 can drive the whole to move up and down through the bolt, thereby the distance from the chamfering tool 209 to the gear shaft is adjusted, during operation, the chamfering tool 209 is driven to move horizontally through the second electric linear sliding rail 206, and the rotary motor 205 drives the chamfering tool 209 to rotate horizontally, and the chamfering tool is suitable for chamfering tools of different sizes and shapes.

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

Claims (6)

1. Full-automatic gear shaft numerical control chamfering machine, including locating component (1) and chamfer subassembly (2), its characterized in that: the positioning assembly (1) is provided with a chamfering assembly (2) above, the positioning assembly (1) is composed of a mounting sleeve (101), an anti-slip pad (102), a supporting table (103), a first telescopic cylinder (104), a first electric linear sliding rail (105), a first movable seat (106) and a mounting table (107), the mounting sleeve (101) is internally provided with the first telescopic cylinder (104), the upper end of the first telescopic cylinder (104) is provided with the supporting table (103), the upper end of the supporting table (103) is provided with the anti-slip pad (102), the outer part of the mounting sleeve (101) is provided with a plurality of groups of first electric linear sliding rails (105), the first electric linear sliding rail (105) is provided with a first movable seat (106), the upper end of the first movable seat (106) is provided with the mounting table (107), the chamfering assembly (2) is composed of a mounting frame (201), a rotary table (202), a limiting rod (203), a second telescopic cylinder (204), a rotary motor (205), a second electric linear sliding rail (206), a second movable seat (207), a chamfering motor (208) and a chamfering motor (209), and a chamfering motor (205) are arranged at the outer part of the mounting frame (201), the rotary motor (205) lower extreme is connected with carousel (202), department is equipped with second electronic linear slide (206) in the middle of carousel (202), second electronic linear slide (206) lower extreme is connected with second and removes seat (207), second removes seat (207) lower extreme and is connected with chamfer motor (208), department is equipped with chamfer sword (209) in the middle of chamfer motor (208) lower extreme.

2. The fully automatic gear shaft numerical control chamfering machine according to claim 1, wherein: the mounting sleeve (101) is connected with the first telescopic cylinder (104) in a sleeved mode and is locked in a limiting mode through bolts, and the first telescopic cylinder (104) is connected with the supporting table (103) through bolts.

3. The fully automatic gear shaft numerical control chamfering machine according to claim 1, wherein: the plurality of groups of mounting tables (107) are connected with the gears through clamping.

4. The fully automatic gear shaft numerical control chamfering machine according to claim 1, wherein: the second telescopic cylinder (204) is connected with the mounting frame (201) through bolts.

5. The fully automatic gear shaft numerical control chamfering machine according to claim 1, wherein: the limiting rod (203) is connected with the rotary table (202) through sleeve connection.

6. The fully automatic gear shaft numerical control chamfering machine according to claim 1, wherein: the rotary motor (205) is connected with the mounting frame (201) and the second electric linear sliding rail (206) through bolts.