CN211564736U - Lock body double-end chamfering machine - Google Patents

Abstract

The utility model discloses a lock body double-end beveler, include: the device comprises a machine frame, a pneumatic sliding table arranged on the surface of the machine frame, a chamfering mechanism, a first loading and unloading mechanism and a second loading and unloading mechanism; two chamfering mechanisms are respectively distributed on two sides of the pneumatic sliding table; a first loading and unloading mechanism is distributed at the pushing far point end of the pneumatic sliding table; a second loading and unloading mechanism is distributed at the pushing near point end of the pneumatic sliding table; a gantry frame body is arranged on a sliding block of the pneumatic sliding table; a first lock body clamp and a second lock body clamp are arranged on the gantry body; the utility model discloses a two sets of anchor clamps send the lock body to chamfer mechanism in turn and process, make full use of material loading time reduces the time of processing aircraft nose waiting to reduce the energy consumption, promote machining efficiency.

Description

Lock body double-end chamfering machine

Technical Field

The utility model relates to a lock body double-end beveler 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-end beveler.

(II) technical scheme

The utility model discloses a lock body double-end beveler, include: the device comprises a machine frame, a pneumatic sliding table arranged on the surface of the machine frame, a chamfering mechanism, a first loading and unloading mechanism and a second loading and unloading mechanism; two chamfering mechanisms are respectively distributed on two sides of the pneumatic sliding table; a first loading and unloading mechanism is distributed at the pushing far point end of the pneumatic sliding table; a second loading and unloading mechanism is distributed at the pushing near point end of the pneumatic sliding table; a gantry frame body is arranged on a sliding block of the pneumatic sliding table; a first lock body clamp and a second lock body clamp which are arranged in a front-back manner are arranged on the gantry frame body along the pushing direction of the pneumatic sliding table; the first lock body clamp moves back and forth between the first loading and unloading mechanism and the chamfering mechanism along with the expansion of the pneumatic sliding table ejector rod; the second lock body clamp moves back and forth between the second loading and unloading mechanism and the chamfering mechanism along with the expansion of the pneumatic sliding table ejector rod; a discharging conveying belt is arranged on the machine rack; two discharging materials are arranged on the discharging conveyor belt and slide to the discharging conveyor belt, and the discharging conveyor belt is respectively butted with a first loading and unloading mechanism and a second loading and unloading mechanism.

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 pushing direction of the pneumatic sliding table.

Further, the traveling direction of the second servo sliding table is perpendicular to the surface of the machine frame.

Further, the first lock body clamp and the second lock body clamp are identical in structure and principle and comprise: the jacking cylinder, the fixed block and the moving block are arranged on the base; the fixed block is fixedly arranged at the bottom of the gantry frame body; the jacking cylinder is fixedly arranged at the top of the gantry frame body, and a jacking rod of the jacking cylinder is connected with a moving block; the fixed block and the moving block are respectively provided with a half groove used for fixing the lock body and with two open ends, and the two half grooves push the moving block to lean against the fixed block through the jacking air cylinder to form the whole lock body accommodating groove.

Furthermore, a guide post for limiting is connected between the fixed block and the moving block.

Further, the first loading and unloading mechanism and the second loading and unloading mechanism have the same structure and principle, and comprise: the device comprises a mounting connecting frame, and a correcting assembly, a push lock cylinder, a feeding bin rail and a feeding chute which are mounted on the mounting connecting frame; the top opening of the feeding chute of the feeding bin rail is opposite to the discharging port of the feeding bin rail; a push lock cylinder is distributed at the rear end of the feeding chute; a pushing block is arranged in the feeding chute; the pushing block is fixedly connected with the pushing lock cylinder; and the front port of the feeding chute is correspondingly butted with the half groove on the fixed block.

Further, the orthotic assembly comprises: the device comprises a lifting cylinder, a double-head cylinder and a correction block; the lifting cylinder is fixed on the mounting connecting frame, and the ejector rod of the lifting cylinder is fixedly connected with a mounting plate; the push rods on the two sides of the double-head cylinder stretch synchronously, and a correcting block is fixedly arranged on each push rod on each side; the center of the double-head cylinder is aligned with the center of the half-groove.

Further, a control box is installed on the machine frame.

(III) advantageous effects

The utility model discloses it has following beneficial effect:

the utility model provides a lock body double-end beveler adopts two sets of anchor clamps, sends the lock body in turn to chamfer mechanism and processes, and make full use of material loading time reduces the time that the processing aircraft nose waited for to reduce the energy consumption, promote machining efficiency.

Drawings

Fig. 1 is a front view structural diagram of the present invention.

Fig. 2 is a back view structural diagram of the present invention.

Fig. 3 is a layout diagram of the middle part of the mechanism of the present invention.

Fig. 4 is a schematic structural view of the first loading and unloading mechanism of the present invention.

Fig. 5 is a schematic structural diagram of the first lock clamp of the present invention.

Detailed Description

As shown in fig. 1 to 5, a lock body double-head chamfering machine includes: the device comprises a machine frame 1, a pneumatic sliding table 2 arranged on the surface of the machine frame 1, a chamfering mechanism 3, a first loading and unloading mechanism 4a and a second loading and unloading mechanism 4 b; two chamfering mechanisms 3 are respectively distributed on two sides of the pneumatic sliding table 2; a first loading and unloading mechanism 4a is distributed at the pushing far point end of the pneumatic sliding table 2; a second loading and unloading mechanism 4b is distributed at the pushing near point end of the pneumatic sliding table 2; a gantry frame body 5 is arranged on the sliding block of the pneumatic sliding table 2; a first lock body clamp 6a and a second lock body clamp 6b which are arranged in a front-back manner are arranged on the gantry frame body 5 along the pushing direction of the pneumatic sliding table 2; the first lock body clamp 6a moves back and forth between the first loading and unloading mechanism 4a and the chamfering mechanism 3 along with the extension of the ejector rod of the pneumatic sliding table 2; the second lock body clamp 6b moves back and forth between the second loading and unloading mechanism 4b and the chamfering mechanism 3 along with the extension of the ejector rod of the pneumatic sliding table 2; a discharging conveyer belt 7 is arranged on the machine frame 1; two discharging sliding devices 71 are arranged on the discharging conveying belt 7 and are respectively butted with a first loading and unloading mechanism 4a and a second loading and unloading mechanism 4 b.

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 traveling direction of the first servo slide table 31 and the pushing direction of the pneumatic slide table 2 are parallel to each other.

Preferably, the traveling direction of the second servo slide table 32 is perpendicular to the surface of the gantry 1.

Preferably, the first lock body clamp 6a and the second lock body clamp 6b are identical in structure and principle, and comprise: the jacking cylinder 61, the fixed block 62 and the moving block 63; the fixed block 62 is fixedly arranged at the bottom of the gantry frame body 5; the jacking cylinder 61 is fixedly arranged at the top of the gantry frame body 5, and a jacking rod of the jacking cylinder is connected with a moving block 63; the fixed block 62 and the moving block 63 are both provided with a half groove 64 which is used for fixing the lock body and has two open ends, and the two half grooves 64 push the moving block 63 to lean against the fixed block 62 through the jacking cylinder 61 to form the whole lock body accommodating groove.

Preferably, a guide post 65 for limiting is connected between the fixed block 62 and the moving block 63.

Preferably, the first and second loading and unloading mechanisms 4a and 4b are identical in structure and principle and comprise: the installation connecting frame 41, and the straightening assembly 42, the push lock cylinder 43, the feeding bin rail 44 and the feeding chute 45 which are installed on the installation connecting frame; the top opening of the feeding chute 45 of the feeding bin rail 44 is opposite to the discharging port of the feeding bin rail 44; a push lock cylinder 43 is distributed at the rear end of the feeding chute 45; a pushing block 46 is arranged in the feeding chute 45; the pushing block 46 is fixedly connected with the pushing locking cylinder 43; the front end of the feeding chute 45 corresponds to the half groove 64 on the butt-joint fixing block 62.

Preferably, the orthotic assembly 42 comprises: a lifting cylinder 421, a double-head cylinder 422 and a correcting block 423; the lifting cylinder 421 is fixed on the mounting connecting frame 41, and the ejector rod is fixedly connected with a mounting plate 424; the ejector rods on the two sides of the double-head cylinder 422 are synchronously telescopic, and a correcting block 423 is fixedly arranged on each ejector rod on each side; the center of the double-headed cylinder 422 is aligned with the center of the half-tank 64.

Preferably, a control box 11 is installed on the machine frame 1.

The action process of the present invention is described in detail with reference to fig. 1-5: in a normal state, the second lock body clamp 6b is aligned with the second loading and unloading mechanism 4b, after the lock is started, the lock body is pushed into the half groove 64 of the fixed block 62 along the feeding chute 45 by the lock pushing cylinder 43 in the second loading and unloading mechanism 4b, then the lifting cylinder 421 in the correcting component 42 acts to drive the two correcting blocks (423) to move to two sides of the fixed block 62 respectively and face the lock body in the half groove 64, then the double-head cylinder 422 acts, and the two correcting blocks 423 simultaneously keep abutting against two opposite faces of the lock body in the half groove 64, so that the lock body is centered in the half groove 64. Then, the jacking cylinder 61 is loaded to push the moving block 63 to move downwards to compress the lock body, after the lock body is compressed, the correcting assembly 42 releases the lock body to reset, and then the pneumatic sliding table 2 keeps pushing, so that the first lock body clamp 6a is pushed to butt the first loading and unloading mechanism 4a to finish loading; and second lock body anchor clamps 6b are sent to butt joint chamfering mechanism 3 to carry out chamfer processing, after material loading and chamfer are accomplished, pneumatic slip table 2 uninstalls the return, first lock body anchor clamps 6a will return to butt joint chamfering mechanism 3, accomplish the chamfer processing of lock body on it, and second lock body anchor clamps 6b will get back to the position of initial butt joint second dress discharge mechanism 4b, roof pressure cylinder 61 on it loosens the lock body, push lock cylinder 43 with back lock body push half-groove 64 of fixed block 62 simultaneously, push down the lock body that the previous processing was good, slide 71 to the conveyer belt 7 via the ejection of compact. The above describes the process of one-time processing of the present invention, and the above process is repeated, i.e., the circular processing is realized.

The utility model provides a lock body double-end beveler adopts two sets of anchor clamps, sends to chamfering machine structure in turn and processes, and make full use of material loading 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 (9)

1. A lock body double-end chamfering machine comprises: the device comprises a machine frame (1), a pneumatic sliding table (2) arranged on the surface of the machine frame (1), a chamfering mechanism (3), a first loading and unloading mechanism (4 a) and a second loading and unloading mechanism (4 b); the method is characterized in that: two chamfering mechanisms (3) are respectively distributed on two sides of the pneumatic sliding table (2); a first loading and unloading mechanism (4 a) is distributed at the far pushing point end of the pneumatic sliding table (2); a second loading and unloading mechanism (4 b) is distributed at the pushing near point end of the pneumatic sliding table (2); a gantry frame body (5) is mounted on a sliding block of the pneumatic sliding table (2); a first lock body clamp (6 a) and a second lock body clamp (6 b) which are arranged in a front-back manner are arranged on the gantry frame body (5) along the pushing direction of the pneumatic sliding table (2); the first lock body clamp (6 a) moves back and forth between the first loading and unloading mechanism (4 a) and the chamfering mechanism (3) along with the extension of the ejector rod of the pneumatic sliding table (2); the second lock body clamp (6 b) moves back and forth between the second loading and unloading mechanism (4 b) and the chamfering mechanism (3) along with the extension of the ejector rod of the pneumatic sliding table (2); a discharging conveying belt (7) is arranged on the machine frame (1); two discharging sliding devices (71) are arranged on the discharging conveying belt (7) and are respectively butted with a first loading and unloading mechanism (4 a) and a second loading and unloading mechanism (4 b).

2. The lock body double-head 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-head chamfering machine according to claim 2, wherein: the advancing direction of the first servo sliding table (31) is parallel to the pushing direction of the pneumatic sliding table (2).

4. The lock body double-head chamfering machine according to claim 2, wherein: the advancing direction of the second servo sliding table (32) is perpendicular to the surface of the machine frame (1).

5. The lock body double-head chamfering machine according to claim 1, wherein: the first lock body clamp (6 a) and the second lock body clamp (6 b) are identical in structure and principle and comprise: the pressing cylinder (61), the fixed block (62) and the moving block (63) are pressed; the fixed block (62) is fixedly arranged at the bottom of the gantry frame body (5); the jacking cylinder (61) is fixedly arranged at the top of the gantry frame body (5), and a jacking rod of the jacking cylinder is connected with a moving block (63); the fixed block (62) and the moving block (63) are respectively provided with a half groove (64) which is used for fixing the lock body and has two open ends, and the two half grooves (64) push the moving block (63) to lean against the fixed block (62) through the jacking air cylinder (61) to construct the whole lock body accommodating groove.

6. The lock body double-head chamfering machine according to claim 5, wherein: and a guide post (65) for limiting is connected between the fixed block (62) and the moving block (63).

7. The lock body double-head chamfering machine according to claim 1, wherein: the first loading and unloading mechanism (4 a) and the second loading and unloading mechanism (4 b) have the same structure and principle, and comprise: the device comprises a mounting connecting frame (41), and a correcting component (42), a push lock cylinder (43), a feeding bin rail (44) and a feeding chute (45) which are mounted on the mounting connecting frame; the top opening of the feeding chute (45) of the feeding bin rail (44) is opposite to the discharging port of the feeding bin rail (44); a push lock cylinder (43) is distributed at the rear end of the feeding chute (45); a pushing block (46) is arranged in the feeding chute (45); the pushing block (46) is fixedly connected with the pushing lock cylinder (43); the front end opening of the feeding chute (45) is correspondingly butted with a half groove (64) on the fixed block (62).

8. The lock body double-end chamfering machine according to claim 7, wherein: the orthotic assembly (42) comprising: the device comprises a lifting cylinder (421), a double-head cylinder (422) and a correcting block (423); the lifting cylinder (421) is fixed on the mounting connecting frame (41), and the ejector rod is fixedly connected with a mounting plate (424); the ejector rods on two sides of the double-head cylinder (422) are synchronously telescopic, and a correcting block (423) is fixedly arranged on each ejector rod on each side; the center of the double-headed cylinder (422) is aligned with the center of the half-groove (64).

9. The lock body double-head chamfering machine according to claim 1, wherein: and a control box (11) is installed on the machine frame (1).

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