CN213568125U - Full-automatic aging production line for computer - Google Patents

Abstract

The utility model discloses a full-automatic ageing production line of computer, first move the device that moves connect preceding survey line and prepare ageing line, the second moves the device that moves and connects ageing line and well survey line, the head and the afterbody of preparing ageing line all are provided with the translation lift, first move the device that moves returns board lifting machine and a set of robot of transporting including the pan feeding, the second moves the device that moves and returns board lifting machine and a set of robot of transporting including the ejection of compact, ageing line includes tunnel stacker, ageing upright storehouse and storehouse antedisplacement machine. The utility model designs and prepares an aging line, a 4-station translation lifter, an aging line and an unmanned tunnel type stacker through reasonable layout in a limited factory space; production rate: beat 30 seconds, productivity 120 pieces/hour; in the whole aging process of the product, power is supplied in the whole process, stable power supply is ensured, the automation degree of the production line is greatly improved, the aging production efficiency is improved, the production rate reaches 120 pieces/hour, and the labor cost is greatly reduced.

Description

Full-automatic aging production line for computer

Technical Field

The utility model relates to an automatic production line, concretely relates to full-automatic ageing production line of computer.

Background

The existing computer aging production line technology has the advantages of low automation degree, high labor cost and transportation cost, low production efficiency and low production yield, and needs manual participation in multiple aspects.

Disclosure of Invention

For solving the problem, the utility model aims at providing a full-automatic ageing production line of computer, in limited factory building space, through rational arrangement, ageing line, 4 station translation lifts, ageing line and unmanned tunnel formula stacker are prepared in the design, improve production line degree of automation greatly, improve ageing production efficiency, productivity ratio reaches 120/hour, reduces the cost of labor energetically.

For realizing above-mentioned technical purpose, reach above-mentioned technological effect, the utility model discloses a following technical scheme realizes:

a computer full-automatic aging production line is positioned between a front measurement line and a middle measurement line and comprises a translation lifter, a preparation aging line, a first transfer device, an aging line and a second transfer device; the preparation line that ages is connected ageing line, first move the device that moves connect preceding survey line with prepare ageing line, the second move the device that moves connect ageing line with well survey line, the head and the afterbody of preparing ageing line all are provided with the translation lift, first move the device that moves returns the board lifting machine and a set of robot of transporting including the pan feeding, the second moves the device that moves and returns the board lifting machine and a set of robot of transporting including the ejection of compact, ageing line moves before tunnel formula stacker, ageing vertical warehouse and the storehouse and plants the machine.

Further, the aging vertical warehouse and the warehouse front transplanting machine are sixteen groups, each group of the aging vertical warehouse is provided with six layers, eleven warehouse positions on each layer, and each warehouse position is provided with a network cable connector.

Furthermore, a photoelectric sensor is arranged on the feeding return plate elevator.

Furthermore, a servo motor is arranged on the translation elevator.

Furthermore, the preparation aging line is a three-layer speed-multiplying chain body, the first layer and the second layer are tooling plate preparation stations, and the third layer is an empty tooling plate return line.

Furthermore, the aging line is a three-layer speed-multiplying chain line body, the upper layer is a tooling plate station for preparing an aging product, the middle layer is a tooling plate station for finishing product aging, the lower layer is an empty tooling plate return line, and conductor rails are all arranged on the upper layer speed-multiplying chain line body and the middle layer speed-multiplying chain line body.

Furthermore, the preparation aging line and the aging line adopt a double-layer tooling plate circulation assembly line.

Further, the length of the aging line is 66 meters.

The utility model has the advantages that:

the utility model designs and prepares an aging line, a 4-station translation lifter, an aging line and an unmanned tunnel type stacker through reasonable layout in a limited factory space; production rate: beat 30 seconds, productivity 120 pieces/hour; flatness of the wire body: the horizontal direction is less than or equal to 2mm in bending, the vertical direction is less than or equal to 3mm in bending, the linear speed is set to be adjustable from 0.5 m/min to 15 m/min, in the whole aging process of the product, power is supplied in the whole process, stable power supply is ensured, the automation degree of the production line is greatly improved, the aging production efficiency is improved, the production rate reaches 120 machines/hour, and the labor cost is greatly reduced.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic structural view of the tooling plate of the present invention;

fig. 4 is the utility model discloses set up the structural schematic diagram of main electrically conductive copper bar and vice electrically conductive copper bar on the frock board.

The reference numbers in the figures illustrate:

4. feeding back to a plate elevator, 5, translating to an elevator, 9, preparing to age a line, 11, aging the line, 16, discharging back to the plate elevator, 17, tooling plates, 18, a roadway type stacker, 19, an aging vertical warehouse, 20, main conductive copper bars, 21, auxiliary conductive copper bars, 22, and a warehouse front transplanting machine.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1 to 4, a computer full-automatic aging production line is located between a front measurement line and a middle measurement line, and comprises a translation elevator 5, a preparation aging line 9, a first transfer device, an aging line 11 and a second transfer device; prepare ageing line 9 and connect ageing line 11, first move and carry the device and connect preceding survey line and prepare ageing line 9, the second moves and carries the device and connect ageing line 11 and well survey line, the head and the afterbody of preparing ageing line 9 all are provided with translation lift 5, first move and carry the device to return board lifting machine 4 and a set of transfer robot including the pan feeding, the second moves and carries the device to return board lifting machine 16 and a set of transfer robot including the ejection of compact, ageing line 11 includes tunnel formula stacker 18, ageing upright storehouse 19 and storehouse antedisplacement machine 22 of planting.

The transfer robot can carry 65 kg rank server, and robot working radius is greater than 1.5 meters.

The tunnel type stacker 18 is responsible for completing the loading and unloading of the product tooling plate 17 into and out of the vertical warehouse, is connected with a power supply and can supply power to the tooling plate 17.

Further, the aging vertical warehouse 19 and the warehouse front transplanting machine 22 are sixteen groups, each aging vertical warehouse 19 is provided with six layers, eleven warehouse positions are arranged on each layer, each warehouse position can stably supply power to the tool plates which are warehoused independently, a network cable connector is designed on each warehouse position, and network testing of products is completed.

Further, a photoelectric sensor is arranged on the feeding return plate elevator 4.

The pan feeding returns board lifting machine 4 and is responsible for receiving the computer product that prepares ageing, accomplishes circulation, the lifting operation of empty frock board 17, and translation lift 5 passes through servo motor control, can 4 positions of accurate walking, is responsible for accurately carrying frock board 17 to the preparation line 9 that corresponds on, and the ejection of compact returns board lifting machine 16 and takes away after the computer product, accomplishes circulation, the lifting operation of empty frock board 17.

Furthermore, a servo motor is arranged on the translation lifter 5.

Further, the preparation aging line 9 is a three-layer speed doubling chain body, the first layer and the second layer are station preparation for the tooling plate, the third layer is a blank tooling plate return line, the first layer and the second layer are designed with 4 speed doubling chain lines in total, and station preparation for the tooling plate is designed completely. The tooling plate 17 is made of black bakelite, a main conductive copper strip 20 and an auxiliary conductive copper strip 21 are designed at the bottom of the tooling plate 17, and power is supplied to the tooling plate 17 through the main conductive copper strip 20 or the auxiliary conductive copper strip 21 at different positions, so that the conveying of computer components is completed by conveying the tooling plate 17.

Further, the aging line 11 is a three-layer speed-multiplying chain line body, the upper layer is a tooling plate station for preparing an aging product, the middle layer is a tooling plate station for completing product aging, the lower layer is an empty tooling plate return line, and conductor rails are all installed on the upper layer speed-multiplying chain line body and the middle layer speed-multiplying chain line body, so that stable power supply to the tooling plate 17 is realized.

Furthermore, the preparation aging line 9 and the aging line 11 both adopt a double-layer tooling plate circulation assembly line.

Further, the aging line 11 has a length of 66 m.

The utility model discloses a work flow does:

the six-axis robot automatically places the product on the feeding return plate elevator 4, and the tooling plate 17 with the product enters the preparation aging line 9 through a photoelectric sensor on the feeding return plate elevator 4;

designing a translation lifter 5 at the head and the tail of the aging preparation line 9, controlling the translation lifter 5 by a servo motor, accurately stopping at 4 positions, respectively entering the 4 positions of the aging preparation line 9, automatically controlling a product to enter a certain line according to the condition of the product on the aging preparation line 9, completely electrifying the product on the aging preparation line 9, starting to keep an electrified state, arranging a conductor rail on a speed doubling chain line, and stably supplying power to the product through a main conductor copper strip 20 of a tooling plate 17;

the tooling plate and the product are all conveyed to the upper layer of an aging line 11 by preparing a translation lifter 5 at an outlet of the aging line 9, conductor rails are all arranged on the upper layer of the aging line 11, and the tooling plate 17 and the product are kept in a power supply state;

the tooling plate 17 automatically enters a pre-warehouse transplanter 22 through automatic control, after entering the pre-warehouse transplanter 22, the tooling plate 17 is powered by an auxiliary conductive copper bar 21, after the tooling plate 17 is in place on the pre-warehouse transplanter 22, the tooling plate 17 is jacked by a jacking cylinder, the power supply of the tooling plate 17 is switched, and power is supplied by a main conductive copper bar 20 to prepare for entering an aging vertical warehouse 19;

after receiving the signal, the tunnel type stacker 18 takes the position to the side face of the warehouse front transplanter 22, the fork extends out, the tooling plate 17 is taken away from the warehouse front transplanter 22 for power supply switching, at the moment, the product on the tooling plate 17 is supplied with power through the auxiliary conductive copper bar 21, and the fork of the tunnel type stacker 18 supplies power to the tooling plate 17;

the roadway type stacker 18 walks to the position of an empty aging vertical warehouse 19 according to the warehouse position condition of the aging vertical warehouse 19, a fork of the roadway type stacker 18 extends out, the tooling plate 17 is placed on the aging vertical warehouse 19, the warehouse position of the aging vertical warehouse 19 supplies power to the tooling plate 17, the power supply is switched, stable power supply is carried out through the main conductive copper bar 20, and the aging test of products is completed on the aging vertical warehouse 19;

after the products are aged, the products are taken out of the warehouse, a fork of a roadway type stacker 18 extends out, the tooling plate 17 is taken away from an aging vertical warehouse 19, power supply switching is carried out, the products are supplied with power through a secondary conductive copper bar 21 on the roadway type stacker 18, and the roadway type stacker 18 sends the tooling plate 17 to a position of a pre-warehouse transplanting machine 22;

the fork of the roadway stacker 18 extends out, the jacking mechanism of the warehouse front transplanter 22 jacks up, the fork places the tooling plate 17 on the warehouse front transplanter 22 for power supply switching, the power supply of the tooling plate 17 is switched from the auxiliary conductive copper bar 21 to the main conductive copper bar 20, the jacking mechanism of the warehouse front transplanter 22 descends, the tooling plate 17 is output through the translation belt, and the power supply switching of the tooling plate 17 is switched from the main conductive copper bar 20 to the auxiliary conductive copper bar 21;

the pre-warehouse transplanter 22 conveys the tooling plate 17 to the aging line 11, the tooling plate 17 is conveyed through the middle layer of the aging line, the power supply of the tooling plate 17 is switched, the auxiliary conductive copper bar 21 is switched into the main conductive copper bar 20, and the conductive rail on the speed doubling chain line stably supplies power to the main conductive copper bar 20 of the tooling plate 17;

the tooling plates 17 are conveyed out of the aging vertical warehouse 19 through the middle layer of the aging line 11 to the tail part of the aging line 11, enter the discharging return plate elevator 16, at the moment, the power supply of the tooling plates 17 is finished, products are taken away, the single tooling plates 17 return to the plate elevator 16 through the discharging return plate elevator 16, the lower layer of the aging line 11, the third layer of the preparation aging line 9, return to the feeding return plate elevator 4, and the circulation of the tooling plates 17 is completed.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a full-automatic ageing production line of computer, is located between preceding survey line and the well survey line, its characterized in that: comprises a translation lifter (5), a preparation aging line (9), a first transfer device, an aging line (11) and a second transfer device; prepare ageing line (9) to connect ageing line (11), first move and carry the device connection preceding survey line with prepare ageing line (9), the second moves and carries the device connection ageing line (11) with well survey line, the head and the afterbody of preparing ageing line (9) all are provided with translation lift (5), first move and carry the device to return board lifting machine (4) and a set of transfer robot including the pan feeding, the second moves and carries the device to return board lifting machine (16) and a set of including the ejection of compact and transport the robot, ageing line (11) include tunnel formula stacker (18), ageing upright storehouse (19) and storehouse preceding transplanter (22).

2. The full-automatic aging production line of the computer according to claim 1, characterized in that: the aging vertical warehouse (19) and the pre-warehouse transplanting machine (22) are sixteen groups, each group of the aging vertical warehouse (19) is provided with six layers, eleven warehouse positions are arranged on each layer, and each warehouse position is provided with a network cable connector.

3. The fully automatic computer aging production line according to claim 2, characterized in that: and a photoelectric sensor is arranged on the feeding return plate elevator (4).

4. The fully automatic computer aging production line according to claim 3, characterized in that: and a servo motor is arranged on the translation lifter (5).

5. The fully automatic computer aging production line according to claim 4, characterized in that: the preparation aging line (9) is a three-layer speed-multiplying chain body, the first layer and the second layer are tooling plate preparation stations, and the third layer is an empty tooling plate return line.

6. The fully automatic computer aging production line of claim 5, characterized in that: the aging line (11) is a three-layer speed-multiplying chain line body, the upper layer is a tooling plate station for preparing an aging product, the middle layer is a tooling plate station for finishing product aging, the lower layer is an empty tooling plate return line, and conductor rails are all arranged on the upper layer speed-multiplying chain line body and the middle layer speed-multiplying chain line body.

7. The fully automatic computer aging production line of claim 6, characterized in that: the preparation aging line (9) and the aging line (11) both adopt a double-layer tooling plate circulation assembly line.

8. The fully automatic computer aging production line of claim 7, characterized in that: the length of the aging line (11) is 66 meters.

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