CN211539773U - Lock body double-clamp chamfering machine - Google Patents

Abstract

The utility model discloses a lock body double-clamp beveler, include: the lock body fixing mechanism is arranged on the machine frame; a station mounting table is arranged in the middle of the machine frame; two groups of lock body fixing mechanisms which are arranged in parallel are arranged on the station mounting table; a group of chamfering mechanisms are respectively arranged on the machine stand at two sides of the station mounting table; the utility model provides a lock body double-clamp beveler adopts two sets of anchor clamps, and chamfering mechanism moves in turn and carries out the chamfer to the lock body between two sets of anchor clamps, accomplishes a set of anchor clamps in processing, and another group's anchor clamps carry out the material loading, and the make full use of time reduces the time of processing aircraft nose waiting to reduce the energy consumption, promote machining efficiency.

Description

Lock body double-clamp chamfering machine

Technical Field

The utility model relates to a lock body double-fixture chamfering machine belongs to lock body processing equipment field.

Background

The chamfer process on lock body surface is indispensable in the processing of lock body, and what present beveler adopted is single anchor clamps, and in the time of locking at every turn, the processing aircraft nose all is in the state of operation waiting, causes the energy extravagant, and the time of waiting also is a waste moreover, leads to the unit machining efficiency low.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to solve the problem, the utility model provides a lock body double-clamp beveler sets up two sets of lock body fixed establishment, and the processing aircraft nose reciprocates two sets of lock body fixed establishment and implements the chamfer, avoids the processing aircraft nose idle.

(II) technical scheme

The utility model discloses a lock body double-clamp beveler, include: the lock body fixing mechanism is arranged on the machine frame; a station mounting table is arranged in the middle of the machine frame; two groups of lock body fixing mechanisms which are arranged in parallel are arranged on the station mounting table; a group of chamfering mechanisms are respectively arranged on the machine stand at two sides of the station mounting table; the lock body fixing mechanism comprises: the device comprises a feeding assembly, a correcting assembly and a clamping assembly; the feeding assembly is provided with a pneumatic sliding table and a feeding bin rail which are fixedly arranged on the station mounting table; a feeding block is fixedly arranged on the pneumatic sliding table; the feeding block is provided with a feeding groove; a material pushing cylinder is arranged at the end part of the material feeding groove on the material feeding block; the discharge end of the feeding bin rail is in butt joint with the feeding groove; the clamping assembly comprises a fixed clamping block, a clamping cylinder and a jacking cylinder, wherein the fixed clamping block, the clamping cylinder and the jacking cylinder are fixedly arranged on the station mounting table; the clamping cylinder is positioned on the horizontal transverse side of the fixed clamping block, and a movable clamping block is fixedly installed at the pushing end of the clamping cylinder; one side of the fixed clamping block, which is close to the movable clamping block, is provided with a notch, and the notch and the movable clamping block form a clamping groove; the jacking cylinder is positioned above the clamping groove, and the jacking end of the jacking cylinder faces downwards and is connected with a jacking block; the jacking block is positioned right above the clamping groove; the orthotic assembly comprises: the device comprises a movable cylinder, a double-head cylinder and a correcting block; the moving cylinder is fixedly arranged on the station mounting table, and the pushing end of the moving cylinder is fixedly connected with a mounting frame; the mounting rack is in sliding connection with the station mounting table through a sliding rail; the double-head cylinder is fixedly arranged on the mounting frame; the two correcting blocks are respectively positioned at the outer sides of the two ends of the clamping groove; two ends of the double-head cylinder are respectively fixedly connected with a correcting block; the center of the double-head cylinder is aligned with the center of the clamping groove.

Further, the chamfering mechanism includes: the first servo sliding table, the second servo sliding table and the machining head are arranged on the machine frame; the first servo sliding table is arranged on the rack; a second servo sliding table is mounted on the sliding table of the first servo sliding table; and a machining head is arranged on the second servo sliding table.

Furthermore, the advancing direction of the first servo sliding table is parallel to the arrangement direction of the two groups of lock body fixing mechanisms.

Furthermore, the second servo sliding table is perpendicular to the first servo sliding table.

Furthermore, two groups of limiting guide pillars are arranged on the station mounting table and are respectively used for guiding the movable clamping block and the jacking block.

Furthermore, a through hole convenient for limiting the guide pillar to pass is formed in the movable clamping block.

Furthermore, a through hole convenient for limiting the guide pillar to pass through is formed in the top pressing block.

Furthermore, a discharging conveying belt is arranged on the rack and correspondingly close to the station mounting table; the discharging conveyer belt is positioned below the side of the clamping groove; and the rack is provided with a control box.

(III) advantageous effects

The utility model discloses it has following beneficial effect:

the utility model provides a lock body double-clamp beveler adopts two sets of anchor clamps, and chamfering mechanism moves in turn and carries out the chamfer to the lock body between two sets of anchor clamps, accomplishes a set of anchor clamps in processing, and another group's anchor clamps carry out the material loading, and the make full use of time reduces the time of processing aircraft nose waiting to reduce the energy consumption, promote machining efficiency.

Drawings

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

Fig. 2 is a schematic view of the overall structure of the fixing mechanism of the middle lock body of the present invention.

Fig. 3 is a schematic structural diagram of the middle clamping assembly of the present invention.

Figure 4 is the structural schematic diagram of the correcting component of the present invention.

Detailed Description

As shown in fig. 1 to 4, a lock body double-clamp chamfering machine includes: the lock body fixing mechanism comprises a machine frame 1, a lock body fixing mechanism 2 and a chamfering mechanism 3; a station mounting table 11 is arranged in the middle of the machine frame 1; two groups of lock body fixing mechanisms 2 which are arranged in parallel are arranged on the station mounting table 11; a group of chamfering mechanisms 3 are respectively arranged on the machine frame 1 at two sides of the station mounting table 11; the lock body fixing mechanism 2 includes: the feeding assembly 21, the correcting assembly 22 and the clamping assembly 23; the feeding assembly 21 assembly is provided with a pneumatic sliding table 211 and a feeding bin rail 212 which are fixedly arranged on the station mounting table 11; a feeding block 213 is fixedly arranged on the pneumatic sliding table 211; the feeding block 213 is provided with a feeding groove 2131; a material pushing cylinder 214 is arranged at the end part of the material feeding groove 2131 on the material feeding block 213; the discharge end of the feed bin rail 212 is butted with the feed chute 2131; the clamping assembly 23 comprises a fixed clamping block 231, a clamping cylinder 232 and a jacking cylinder 233 which are fixedly arranged on the station mounting table 11; the clamping cylinder 232 is positioned on the horizontal transverse side of the fixed clamping block 231, and a movable clamping block 234 is fixedly installed at the pushing end of the clamping cylinder; one side of the fixed clamping block 231, which is close to the movable clamping block 234, is provided with a notch, and the notch and the movable clamping block 234 form a clamping groove 235; the jacking cylinder 233 is positioned above the clamping groove 235, and the jacking end of the jacking cylinder is downward and is connected with a jacking block 236; the top pressing block 236 is positioned right above the clamping groove 235; the orthotic assembly 22 comprises: a moving cylinder 221, a double-headed cylinder 222 and a correcting block 223; the moving cylinder 221 is fixedly installed on the station installation table 11, and the pushing end of the moving cylinder is fixedly connected with an installation frame 224; the mounting rack 224 is in sliding connection with the station mounting table 11 through a slide rail 225; the double-head cylinder 222 is fixedly arranged on a mounting frame 224; two ends of the double-head cylinder 222 are respectively fixedly connected with a correcting block 223; the two correcting blocks 223 are respectively positioned at the outer sides of the two ends of the clamping groove 235; the center of the double-headed cylinder 222 is aligned with the center of the clamping groove 235.

Preferably, the chamfering mechanism 3 includes: a first servo sliding table 31, a second servo sliding table 32 and a machining head 33; the first servo sliding table 31 is arranged on the machine frame 1; a second servo sliding table 32 is mounted on the sliding table of the first servo sliding table 31; the second servo sliding table 32 is provided with a machining head 33.

Preferably, the advancing direction of the first servo sliding table 31 and the arrangement direction of the two lock body fixing mechanisms 2 are parallel to each other.

Preferably, the second servo slide table 32 and the first servo slide table 31 are perpendicular to each other.

Preferably, two groups of limiting guide pillars 111 are installed on the station installation table 11, and are respectively used for guiding the movable clamping block 234 and the jacking block 236.

Preferably, the movable clamping block 234 is provided with a through hole for limiting the passage of the guide post 111.

Preferably, the top pressing block 236 is provided with a through hole for the guide pillar 111 to pass through.

Preferably, the machine frame 1 is provided with a discharging conveying belt 4 correspondingly close to the station mounting table 11; the discharging conveyer belt 4 is positioned below the side of the clamping groove 235; the machine frame 1 is provided with a control box 12.

The action process of the present invention is described in detail with reference to fig. 1-4: when feeding, the two groups of lock body fixing mechanisms 2 feed simultaneously, the lock bodies slide into the feeding groove 2131 from the feeding bin rail 212, then the pneumatic sliding table 211 works to drive the feeding block 213 to move forwards, so that the feeding groove 2131 is aligned with the clamping groove 235, then the material returning cylinder 214 pushes the lock bodies in the feeding groove 2131 into the clamping groove 235, then the moving cylinder 221 of the correcting assembly 22 pushes the mounting frame 224 downwards, the two correcting blocks 223 are just positioned at two ends of the clamping groove 235, then the double-head cylinder 222 acts to make the two correcting blocks 223 close to the space simultaneously so as to achieve the position of the correcting lock body, then the clamping cylinder 232 and the jacking cylinder 233 act sequentially, the pushing movable clamping block 234 and the jacking block 236 are respectively kept to clamp the lock bodies, then the correcting assembly 22 loosens the lock bodies, unloading and returning are carried out, the steps of feeding and tightening of the whole lock body are finished, then, the two groups of chamfering mechanisms 3 at two sides of the lock body fixing mechanisms 2 start to act, under the drive of the respective first servo sliding table 31 and the second servo sliding table 32, the two processing machine heads 33 simultaneously perform chamfering processing on two end faces of the lock body on one set of lock body fixing mechanism 2, and after the chamfering processing is completed, the two end faces of the lock body on the other set of lock body fixing mechanism 2 are moved to perform chamfering processing, and simultaneously the first set of lock body fixing mechanism 2 synchronously starts feeding so as to circulate.

The utility model provides a lock body double-clamp beveler adopts two sets of anchor clamps, and chamfering mechanism moves in turn and carries out the chamfer to the lock body between two sets of anchor clamps, accomplishes a set of anchor clamps in processing, and another group's anchor clamps carry out the material loading, and the make full use of time reduces the time of processing aircraft nose waiting to reduce the energy consumption, promote machining efficiency.

It is to be understood that the exemplary embodiments described herein are illustrative and not restrictive; although the embodiments of the present invention have been described with reference to the accompanying drawings, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A lock body double-clamp chamfering machine comprises: the lock comprises a rack (1), a lock body fixing mechanism (2) and a chamfering mechanism (3); the method is characterized in that: a station mounting table (11) is arranged in the middle of the machine frame (1); two groups of lock body fixing mechanisms (2) which are arranged in parallel are arranged on the station mounting table (11); a group of chamfering mechanisms (3) are respectively arranged on the machine frame (1) at two sides of the station mounting table (11); the lock body fixing mechanism (2) comprises: the device comprises a feeding assembly (21), a correcting assembly (22) and a clamping assembly (23); the feeding assembly (21) assembly is provided with a pneumatic sliding table (211) and a feeding bin rail (212) which are fixedly arranged on the station mounting table (11); a feeding block (213) is fixedly arranged on the pneumatic sliding table (211); a feeding groove (2131) is formed in the feeding block (213); a material pushing cylinder (214) is arranged at the end part of the material feeding groove (2131) on the material feeding block (213); the discharge end of the feeding bin rail (212) is butted with a feeding groove (2131); the clamping assembly (23) comprises a fixed clamping block (231), a clamping cylinder (232) and a jacking cylinder (233), wherein the fixed clamping block, the clamping cylinder and the jacking cylinder are fixedly arranged on the station mounting table (11); the clamping cylinder (232) is positioned on the horizontal transverse side of the fixed clamping block (231), and a pushing end of the clamping cylinder is fixedly provided with a movable clamping block (234); one side of the fixed clamping block (231) close to the movable clamping block (234) is provided with a notch, and the notch and the movable clamping block (234) form a clamping groove (235); the jacking cylinder (233) is positioned above the clamping groove (235), and the jacking end of the jacking cylinder is downward and is connected with a jacking block (236); the top pressing block (236) is positioned right above the clamping groove (235); the orthotic assembly (22) comprising: a moving cylinder (221), a double-head cylinder (222) and a correcting block (223); the moving cylinder (221) is fixedly installed on the station installation table (11), and the pushing end of the moving cylinder is fixedly connected with an installation frame (224); the mounting rack (224) is in sliding connection with the station mounting table (11) through a sliding rail (225); the double-head cylinder (222) is fixedly arranged on a mounting frame (224); two ends of the double-head cylinder (222) are respectively fixedly connected with a correcting block (223); the two correcting blocks (223) are respectively positioned at the outer sides of the two ends of the clamping groove (235); the center of the double-headed cylinder (222) is aligned with the center of the clamping groove (235).

2. The lock body double-clamp chamfering machine according to claim 1, wherein: the chamfering mechanism (3) includes: the device comprises a first servo sliding table (31), a second servo sliding table (32) and a machining head (33); the first servo sliding table (31) is arranged on the machine frame (1); a second servo sliding table (32) is mounted on the sliding table of the first servo sliding table (31); and a machining head (33) is arranged on the second servo sliding table (32).

3. The lock body double-clamp chamfering machine according to claim 2, wherein: the advancing direction of the first servo sliding table (31) is parallel to the arrangement direction of the two groups of lock body fixing mechanisms (2).

4. The lock body double-clamp chamfering machine according to claim 2, wherein: the second servo sliding table (32) is perpendicular to the first servo sliding table (31).

5. The lock body double-clamp chamfering machine according to claim 1, wherein: two groups of limiting guide columns (111) are mounted on the station mounting table (11) and are respectively used for guiding the movable clamping block (234) and the jacking block (236).

6. The lock body double-clamp chamfering machine according to claim 5, wherein: the movable clamping block (234) is provided with a through hole for limiting the guide post (111) to pass through.

7. The lock body double-clamp chamfering machine according to claim 5, wherein: the top pressing block (236) is provided with a through hole which is convenient for limiting the guide pillar (111) to pass through.

8. The lock body double-clamp chamfering machine according to claim 1, wherein: a discharging conveying belt (4) is installed on the machine frame (1) and is correspondingly close to the station installation table (11); the discharging conveying belt (4) is positioned below the side of the clamping groove (235); the rack (1) is provided with a control box (12).

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