CN106005888A - Automatic feed back mechanism for bearing machining equipment chain plate assembly line - Google Patents

Abstract

The invention relates to an automatic feed back mechanism for a bearing machining equipment chain plate assembly line. A discharging opening of a rotary baiting disc is connected with a feeding opening of a fourth baiting channel. A discharging opening of the fourth baiting channel is connected with a first feeding opening of a first rotary type plate chain conveyor. A first discharging opening of the first rotary type plate chain conveyor is connected with a feeding opening of a first baiting channel. A discharging opening of the first baiting channel is connected with a first feeding opening of a second rotary type plate chain conveyor. A first discharging opening of the second rotary type plate chain conveyor is connected with a feeding opening of a second baiting channel. A discharging opening of the second baiting channel is connected with a second feeding opening of the first rotary type plate chain conveyor. A second discharging opening of the first rotary type plate chain conveyor is connected with a feeding opening of a third baiting channel. A discharging opening of the third baiting channel is connected with a feeding opening of the rotary baiting disc. By the adoption of the automatic feed back mechanism, the potential quality hazard existing in the man-made material carrying process is avoided, and the human cost is saved. The automatic feed back mechanism is simple in structure and high in automation degree.

Description

The bearing machining equipment automatic material return mechanism of carrier bar line

Technical field

The invention belongs to bearing machining equipment carrier bar connection technology field, present invention relates especially to a kind of bearing machining equipment automatic material return mechanism of carrier bar line.

Background technology

Being presently used for bearing machining equipment carrier bar line feed back is all to use carrier bar material to flow in pulp-collecting box, then by manually carrying.A dead lift is wasted time and energy, and easily produces batch mixing in handling process, and material such as strikes down to the dust at the potential hidden danger of quality.

As shown in Figure 1, primitive axis hold equipment carrier bar line blanking by feeding rotating disk 5 to mainboard chain 1, be transported to discharge channel 2 from mainboard chain 1, then by discharge channel 2 to buffer board 3, again by buffer board 3 to pulp-collecting box 4, the most again by manually returning to inside feeding rotating disk 5 from pulp-collecting box 4 carrying.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art, it is provided that a kind of hidden danger of quality that material can be avoided to occur in artificial handling process, human cost and the high bearing machining equipment automatic material return mechanism of carrier bar line of automaticity can be saved.

The technical scheme provided according to the present invention, the described bearing machining equipment automatic material return mechanism of carrier bar line, it includes the first swinging plate-and-chain conveyer, the first discharge channel, the second swinging plate-and-chain conveyer, the second discharge channel, feeding rotating disk, the 3rd discharge channel and the 4th discharge channel；The discharging opening of feeding rotating disk and the charging aperture of the 4th discharge channel connect, the discharging opening of the 4th discharge channel and the first charging aperture of the first swinging plate-and-chain conveyer connect, first discharging opening of the first swinging plate-and-chain conveyer and the charging aperture of the first discharge channel connect, the discharging opening of the first discharge channel and the first charging aperture of the second swinging plate-and-chain conveyer connect, first discharging opening of the second swinging plate-and-chain conveyer and the charging aperture of the second discharge channel connect, the discharging opening of the second discharge channel and the second charging aperture of the first swinging plate-and-chain conveyer connect, second discharging opening of the first swinging plate-and-chain conveyer and the charging aperture of the 3rd discharge channel connect, the discharging opening of the 3rd discharge channel connects with the charging aperture of feeding rotating disk.

Invention not only avoids the hidden danger of quality that material occurs in artificial handling process, and saved human cost, present configuration is simple and automaticity is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of prior art.

Fig. 2 is the structural representation of the present invention.

Detailed description of the invention

Below in conjunction with specific embodiment, the invention will be further described.

As shown in Figure 2, this bearing machining equipment automatic material return mechanism of carrier bar line, it includes first swinging plate-and-chain conveyer the 11, first discharge channel the 12, second swinging plate-and-chain conveyer the 13, second discharge channel 14, feeding rotating disk the 15, the 3rd discharge channel 16 and the 4th discharge channel 17；The discharging opening of feeding rotating disk 15 and the charging aperture of the 4th discharge channel 17 connect, the discharging opening of the 4th discharge channel 17 and the first charging aperture of the first swinging plate-and-chain conveyer 11 connect, first discharging opening of the first swinging plate-and-chain conveyer 11 and the charging aperture of the first discharge channel 12 connect, the discharging opening of the first discharge channel 12 and the first charging aperture of the second swinging plate-and-chain conveyer 13 connect, first discharging opening of the second swinging plate-and-chain conveyer 12 and the charging aperture of the second discharge channel 14 connect, the discharging opening of the second discharge channel 14 and the second charging aperture of the first swinging plate-and-chain conveyer 11 connect, second discharging opening of the first swinging plate-and-chain conveyer 11 and the charging aperture of the 3rd discharge channel 16 connect, the discharging opening of the 3rd discharge channel 16 connects with the charging aperture of feeding rotating disk 15.

nullThe work process of the present invention is: the first charging aperture of the first swinging plate-and-chain conveyer 11 expected for 17 times by workpiece by feeding rotating disk 5 by the 4th discharge channel，Fall into the front of plate chain in the first swinging plate-and-chain conveyer 11，The first discharging opening being then passed through the first swinging plate-and-chain conveyer 11 flows to the charging aperture of the first discharge channel 12，Again by under the discharging storehouse of the first discharge channel 12 on the second swinging plate-and-chain conveyer 13，The charging aperture of the second discharge channel 14 it is sent to again by carrier bar，Workpiece flows to the second charging aperture of the first swinging plate-and-chain conveyer 11 through the discharging opening of the second discharge channel 14，Fall into the back side of plate chain in the first swinging plate-and-chain conveyer 11，Workpiece is sent to the charging aperture of the 3rd discharge channel 16 through the second discharging opening of the first swinging plate-and-chain conveyer 11，Finally，Workpiece is flowed in the middle of the charging aperture of feeding rotating disk 5 by the discharging opening of the 3rd discharge channel 16.Thus save and drop off a dead lift, solve the potential hidden danger of quality that a dead lift exists.

Claims (1)

1. the automatic material return mechanism of bearing machining equipment carrier bar line, is characterized in that: it includes the first swinging plate-and-chain conveyer (11), the first discharge channel (12), the second swinging plate-and-chain conveyer (13), the second discharge channel (14), feeding rotating disk (15), the 3rd discharge channel (16) and the 4th discharge channel (17)；nullThe discharging opening of feeding rotating disk (15) and the charging aperture of the 4th discharge channel (17) connect，The discharging opening of the 4th discharge channel (17) and the first charging aperture of the first swinging plate-and-chain conveyer (11) connect，First discharging opening of the first swinging plate-and-chain conveyer (11) and the charging aperture of the first discharge channel (12) connect，The discharging opening of the first discharge channel (12) and the first charging aperture of the second swinging plate-and-chain conveyer (13) connect，First discharging opening of the second swinging plate-and-chain conveyer (12) and the charging aperture of the second discharge channel (14) connect，The discharging opening of the second discharge channel (14) and the second charging aperture of the first swinging plate-and-chain conveyer (11) connect，Second discharging opening of the first swinging plate-and-chain conveyer (11) and the charging aperture of the 3rd discharge channel (16) connect，The discharging opening of the 3rd discharge channel (16) connects with the charging aperture of feeding rotating disk (15).