CN214080154U - Positioning and part loading mechanism of steel rail assembly machine - Google Patents

Abstract

The utility model discloses a positioning and part loading mechanism of a steel rail assembly machine, which comprises a first positioning frame, a first assembly frame, a second positioning frame, a second assembly frame and a part manipulator; the first assembling frame is provided with a first assembling sliding table, the first assembling sliding table is connected with a first sliding table sliding block, a first movable block is mounted on the first sliding table sliding block, the first movable block is provided with a first assembling cylinder, and a driving end of the first assembling cylinder is connected with a first assembling jig; the second assembling sliding table is arranged on the second assembling frame, a second sliding table sliding block is connected onto the second assembling sliding table, a second movable block is installed on the second sliding table sliding block, a second assembling cylinder is arranged on the second movable block, and a second assembling jig is connected onto a driving end of the second assembling cylinder. This steel rail assembly machine's location dress part mechanism assembles the back with two riveting plates, installs upper part again, and the assembling process is quick, adopts the tool to fix a position, and the mounted position is accurate orderly, effectively improves production efficiency.

Description

Positioning and part loading mechanism of steel rail assembly machine

Technical Field

The utility model relates to a technical field of assembly especially relates to a location dress part mechanism of rail assembly machine.

Background

When the server case is used, the steel rail needs to be pushed and pulled out, and the service life of the server case is directly influenced by the quality of the steel rail.

At present, because two riveting plates forming the steel rail need to be assembled together, and an upper part is additionally arranged to complete the assembly of the steel rail, the efficiency is too low during manual assembly, and the accuracy of manual assembly is also low due to the fact that the riveting plates are too long, and the quality of finished products is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the utility model provides a location dress part mechanism of rail assembly machine for solve the problem that prior art exists.

To achieve the purpose, the utility model adopts the following technical proposal:

a positioning and part-assembling mechanism of a steel rail assembling machine comprises a first positioning frame, a first assembling frame, a second positioning frame, a second assembling frame and a part manipulator;

the first assembling jig is arranged on the first positioning frame, the first assembling frame is positioned on one side of the first positioning frame, a first assembling sliding table is transversely arranged on the first assembling frame, a first sliding table sliding block is connected onto the first assembling sliding table in a sliding mode, a first movable block is installed on the first sliding table sliding block, a first assembling cylinder is arranged inside the first movable block, the driving end of the first assembling cylinder vertically extends upwards, and the driving end of the first assembling cylinder is connected with the first assembling jig;

a second assembly jig is arranged on the second positioning frame, the second assembly frame is positioned on one side of the second positioning frame, a second assembly sliding table is transversely arranged on the second assembly frame, a second sliding table sliding block is connected onto the second assembly sliding table in a sliding mode, a second movable block is mounted on the second sliding table sliding block, a second assembly cylinder is arranged inside the second movable block, the driving end of the second assembly cylinder vertically extends upwards, and a second assembly jig is connected onto the driving end of the second assembly cylinder;

the part manipulator is positioned on one side, far away from the first assembly frame, of the second assembly frame.

As a preferred technical scheme, be provided with first assembly slide rail on the first assembly jig, the length direction of first assembly slide rail with the length direction of first assembly slip table is unanimous, the lower extreme of first movable block is provided with first assembly slider, first assembly slider slide in on the first assembly slide rail.

As a preferred technical scheme, a second assembling slide rail is arranged on the second assembling frame, the length direction of the second assembling slide rail is consistent with that of the second assembling slide table, a second assembling slide block is arranged at the lower end of the second movable block, and the second assembling slide block slides on the second assembling slide rail.

As a preferred technical scheme, a first assembling screw rod is installed inside the first assembling sliding table, a first assembling motor is arranged at one end of the first assembling sliding table, the driving end of the first assembling motor is connected with the first assembling screw rod, a first assembling nut seat is fixed on the first sliding table sliding block, and the first assembling nut seat is in threaded transmission connection with the first assembling screw rod.

As a preferable technical scheme, a second assembling screw rod is installed inside the second assembling sliding table, a second assembling motor is arranged at one end of the second assembling sliding table, the driving end of the second assembling motor is connected with the second assembling screw rod, a second assembling nut seat is fixed on the second sliding table sliding block, and the second assembling nut seat is in threaded transmission connection with the second assembling screw rod.

As a preferred technical scheme, a first lifting cylinder is arranged on the first positioning frame, and the first assembly jig is mounted on the first lifting cylinder.

As a preferred technical scheme, the automatic oiling device further comprises an oiling conveying belt, wherein a plurality of oiling rollers are arranged on the oiling conveying belt, and oiling baffle wheels are sleeved on the oiling rollers.

The utility model has the advantages that: the utility model provides a location dress part mechanism of rail assembly machine, this location dress part mechanism of rail assembly machine assembles the back with two riveting plates, installs upper part again, and the assembly process is quick, adopts the tool to fix a position, and the mounted position is accurate orderly, effectively improves production efficiency.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

FIG. 1 is a schematic overall structure diagram of a positioning and part-loading mechanism of a rail assembly machine according to an embodiment;

FIG. 2 is a schematic view of a first partial structure of a positioning and part-mounting mechanism of a rail assembly machine according to an embodiment;

FIG. 3 is a second partial schematic structural view of a positioning and part-mounting mechanism of the rail assembling machine according to the embodiment;

fig. 4 is a third partial structure schematic diagram of a part positioning and mounting mechanism of a rail assembling machine according to an embodiment.

In fig. 1 to 4:

301. a first positioning frame; 302. a first jig; 303. a second positioning frame; 304. a second jig; 305. a part manipulator; 306. a first assembly jig; 307. a second assembly jig; 308. a first assembly sliding table; 309. a second assembly sliding table; 310. a first sliding table sliding block; 311. a second sliding table sliding block; 312. a first movable block; 313. a second movable block; 314. a first assembly cylinder; 315. a second assembly cylinder; 316. a first assembling jig; 317. a second assembly jig; 318. a first assembly slide rail; 319. a second assembly slide rail; 320. a first assembly slide; 321. a second assembly slide; 322. a first assembly screw; 323. a second assembly screw rod; 324. a first mounting motor; 325. a second mounting motor; 326. a first assembly nut seat; 327. a second assembly nut seat; 328. a first lift cylinder; 329. oiling a conveyer belt; 330. an oiling roller; 331. oil coating gear wheels;

4. riveting a plywood; 5. a steel rail; 6. and (4) an upper part.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 4, in the present embodiment, a positioning and part-mounting mechanism of a rail mounting machine includes a first positioning frame 301, a first mounting frame 302, a second positioning frame 303, a second mounting frame 304, and a part robot 305.

The parts handler 305 is located on a side of the second jig 304 remote from the first jig 302.

The riveting plate 4 conveyed from the front end is placed on the first positioning frame 301 for positioning, then the first assembling frame 302 is responsible for installing the two riveting plates 4, then the part manipulator 305 places the steel rail 5 assembled by the two riveting plates 4 on the second positioning frame 303, then the part manipulator 305 places the upper part 6 on the steel rail 5, and the second assembling frame 304 assembles the upper part 6 into the steel rail 5 to form a final product.

Be provided with first subassembly tool 306 on the first locating rack 301, first assembly jig 302 is located one side of first locating rack 301, transversely be provided with first assembly slip table 308 on the first assembly jig 302, sliding connection has first slip table slider 310 on the first assembly slip table 308, install first movable block 312 on the first slip table slider 310, the inside of first movable block 312 is provided with first assembly cylinder 314, the vertical upwards stretching out of drive end of first assembly cylinder 314, be connected with first assembly tool 316 on the drive end of first assembly cylinder 314.

The first riveting plate 4 of front end is placed fix on the first subassembly tool 306, and second riveting plate 4 is placed fix on the first assembly tool 316, then first assembly cylinder 314 will first assembly tool 316 moves down for two riveting plates 4 are in the suitable relative height of assembly, and under the effect of front end equipment, a little of first riveting plate 4 is inserted to second riveting plate 4 first assembly slip table 308 with under the relative slip effect of first slip table slider 310, first movable block 312 with second riveting plate 4 with first riveting plate 4 assembles completely.

Be provided with second subassembly tool 307 on the second locating rack 303, second assembly jig 304 is located one side of second locating rack 303, transversely be provided with second assembly slip table 309 on the second assembly jig 304, sliding connection has second slip table slider 311 on the second assembly slip table 309, install second movable block 313 on the second slip table slider 311, the inside of second movable block 313 is provided with second assembly cylinder 315, the vertical upwards extension of drive end of second assembly cylinder 315, be connected with second assembly tool 317 on the drive end of second assembly cylinder 315.

After the assembly between the riveting plates 4 is completed, the part manipulator 305 takes the steel rail 5 to the second assembly jig 307 for fixing, and takes the upper part 6 to be placed to the second assembly jig 317 for fixing, then the second assembly cylinder 315 moves the second assembly jig 317 downwards, so that the steel rail 5 and the upper part 6 are at the appropriate relative height for assembly, under the action of the part manipulator 305, the upper part 6 is inserted into a small amount of the steel rail 5, under the relative sliding action of the second assembly sliding table 309 and the second sliding table sliding block 311, the second movable block 313 completely assembles the upper part 6 and the steel rail 5.

The first assembling frame 302 is provided with a first assembling slide rail 318, the length direction of the first assembling slide rail 318 is consistent with the length direction of the first assembling sliding table 308, the lower end of the first movable block 312 is provided with a first assembling slide block 320, and the first assembling slide block 320 slides on the first assembling slide rail 318.

Moreover, a second assembly slide rail 319 is arranged on the second assembly frame 304, the length direction of the second assembly slide rail 319 is consistent with the length direction of the second assembly sliding table 309, a second assembly slide block 321 is arranged at the lower end of the second movable block 313, and the second assembly slide block 321 slides on the second assembly slide rail 319.

The first assembly slide 320 slides on the first assembly slide 318, and the second assembly slide 321 slides on the second assembly slide 319, so that the first movable block 312 and the second movable block 313 can move more smoothly.

A first assembling screw rod 322 is installed inside the first assembling sliding table 308, a first assembling motor 324 is arranged at one end of the first assembling sliding table 308, the driving end of the first assembling motor 324 is connected with the first assembling screw rod 322, a first assembling nut seat 326 is fixed on the first sliding table sliding block 310, and the first assembling nut seat 326 is in threaded transmission connection with the first assembling screw rod 322.

Moreover, a second assembling screw rod 323 is installed inside the second assembling sliding table 309, a second assembling motor 325 is arranged at one end of the second assembling sliding table 309, a driving end of the second assembling motor 325 is connected with the second assembling screw rod 323, a second assembling nut seat 327 is fixed on the second sliding table slider 311, and the second assembling nut seat 327 is in threaded transmission connection with the second assembling screw rod 323.

When the first sliding table sliding block 310 moves, the first assembling motor 324 provides power to the first assembling screw rod 322, and in the rotating process of the first assembling screw rod 322, the moving power enables the first assembling nut seat 326 to drive the first sliding table sliding block 310 to move; similarly, when the second sliding table slide block 311 moves, the second assembling motor 325 provides power to the second assembling screw rod 323, and in the rotating process of the second assembling screw rod 323, the moving power enables the second assembling nut seat 327 to drive the second sliding table slide block 311 to move.

Specifically, the first positioning frame 301 is provided with a first lifting cylinder 328, and the first assembly jig 306 is mounted on the first lifting cylinder 328.

And in addition, the device also comprises an oiling conveyer belt 329, wherein a plurality of oiling rollers 330 are arranged on the oiling conveyer belt 329, and the oiling rollers 330 are sleeved with oiling baffle wheels 331.

The assembled steel rail 5 is placed on the oiling conveyer belt 329 to be oiled and moved by the oiling roller 330, wherein the oiling baffle wheel 331 prevents the oiled steel rail 5 from touching other places.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the technical principles applied, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention.

Claims (7)

1. A positioning and part loading mechanism of a steel rail assembling machine is characterized by comprising a first positioning frame, a first assembling frame, a second positioning frame, a second assembling frame and a part manipulator;

the first assembling jig is arranged on the first positioning frame, the first assembling frame is positioned on one side of the first positioning frame, a first assembling sliding table is transversely arranged on the first assembling frame, a first sliding table sliding block is connected onto the first assembling sliding table in a sliding mode, a first movable block is installed on the first sliding table sliding block, a first assembling cylinder is arranged inside the first movable block, the driving end of the first assembling cylinder vertically extends upwards, and the driving end of the first assembling cylinder is connected with the first assembling jig;

a second assembly jig is arranged on the second positioning frame, the second assembly frame is positioned on one side of the second positioning frame, a second assembly sliding table is transversely arranged on the second assembly frame, a second sliding table sliding block is connected onto the second assembly sliding table in a sliding mode, a second movable block is mounted on the second sliding table sliding block, a second assembly cylinder is arranged inside the second movable block, the driving end of the second assembly cylinder vertically extends upwards, and a second assembly jig is connected onto the driving end of the second assembly cylinder;

the part manipulator is positioned on one side, far away from the first assembly frame, of the second assembly frame.

2. The mechanism of claim 1, wherein the first assembly rack is provided with a first assembly slide rail, a length direction of the first assembly slide rail is identical to a length direction of the first assembly slide table, the lower end of the first movable block is provided with a first assembly slide block, and the first assembly slide block slides on the first assembly slide rail.

3. The mechanism of claim 1, wherein a second assembly slide rail is disposed on the second assembly frame, a length direction of the second assembly slide rail is identical to a length direction of the second assembly slide table, a second assembly slide block is disposed at a lower end of the second movable block, and the second assembly slide block slides on the second assembly slide rail.

4. The mechanism of claim 1, wherein a first assembling screw rod is mounted inside the first assembling sliding table, a first assembling motor is arranged at one end of the first assembling sliding table, a driving end of the first assembling motor is connected with the first assembling screw rod, a first assembling nut seat is fixed on the first sliding table sliding block, and the first assembling nut seat is in threaded transmission connection with the first assembling screw rod.

5. The mechanism of claim 1, wherein a second assembling screw is mounted inside the second assembling sliding table, a second assembling motor is arranged at one end of the second assembling sliding table, a driving end of the second assembling motor is connected with the second assembling screw, a second assembling nut seat is fixed on the second sliding table slider, and the second assembling nut seat is in threaded transmission connection with the second assembling screw.

6. The component positioning and assembling mechanism of a rail assembling machine as claimed in claim 1, wherein a first lifting cylinder is provided on said first positioning frame, and said first component jig is mounted on said first lifting cylinder.

7. The positioning part-assembling mechanism of the steel rail assembling machine as claimed in claim 1, further comprising an oiling conveying belt, wherein a plurality of oiling rollers are arranged on the oiling conveying belt, and the oiling rollers are sleeved with oiling baffle wheels.

Images