CN203343819U - Distributing and conveying mechanism of switchgear cabinet base plate used on full-automatic welding machine and in tapping process - Google Patents

Abstract

The utility model relates to a distributing and conveying mechanism of a switchgear cabinet base plate used on a full-automatic welding machine and in a tapping process. The distributing and conveying mechanism of the switchgear cabinet base plate used on the full-automatic welding machine and in the tapping process comprises a feed channel, a first belt conveying line and a second belt conveying line, wherein the feed channel, the first belt conveying line and the second belt conveying line are connected in sequence, a first automatic welding machine production line and a second automatic welding machine production line which are arranged side by side are arranged at the tail end of the first belt conveying line and at the tail end of the second belt conveying line respectively, a distributing device is arranged at the position where the first belt conveying line and the second belt conveying line are connected, a photoelectric inductor and a fourth cylinder pushing device are arranged at the initial end of the first belt conveying line, and a first full-load photoelectric inductor and a second full-load photoelectric inductor are arranged on the first belt conveying line and on the second belt conveying line respectively. Compared with the prior art in which only one automatic welding machine production line is arranged, the distributing and conveying mechanism of the switchgear cabinet base plate used on the full-automatic welding machine and in the tapping process has the advantages that due to the fact that two automatic welding machine production lines are arranged, the number of redundant parts is reduced, and working efficiency is improved; meanwhile, due to the fact that automatic tapping machines are arranged on the two automatic welding machine production lines respectively, automatic production with punching, automatic welding and automatic tapping carried out synchronously is achieved.

Description

In a kind of full-automatic welding machine and tapping for shunting and the conveying mechanism of bottom plate of switch box

Technical field

The utility model relates in a kind of full-automatic welding machine and tapping shunting and the conveying mechanism for bottom plate of switch box.

Background technology

At present, shunting and conveying mechanism for bottom plate of switch box in existing full-automatic welding machine and tapping are mainly, by deflector chute and belt conveyor line, punch press and automatic welder(welding machine) are connected into to an integral body, to realize punching press, with synchronizeing of welding, carry out, namely punch ram bottom plate of switch box out enters automatic welder(welding machine) by deflector chute and belt conveyor line and is welded, because automatic welder(welding machine) only arranges one, so the afterbody of deflector chute also arranges box diversion mechanism at the bottom of a switchboard, at the bottom of switchboard, the effect of box diversion mechanism is that workpiece on belt conveyor line is when full load condition, unnecessary workpiece is diverted in charging basket.In actual production, the operating efficiency of an automatic welder(welding machine) is well below the operating efficiency of punch press, the switchboard of a greater number is namely arranged at the bottom of box need to enter charging basket by box diversion mechanism shunting at the bottom of switchboard after deflector chute, cause production efficiency low.

The utility model content

The purpose of this utility model is to provide in a kind of full-automatic welding machine and tapping for shunting and the conveying mechanism of bottom plate of switch box, and this mechanism at least arranges two automatic welder(welding machine)s, has improved production efficiency.

For achieving the above object, the utility model has adopted following technical scheme: comprise connected successively deflector chute, the first belt conveyor line and the second belt conveyor line, described first, the end of the second belt conveyor line is respectively equipped with mutually arranged side by side first, the second automatic welder(welding machine) production line, described first, the junction of the second belt conveyor line is provided with part flow arrangement, described part flow arrangement branches to the first automatic welder(welding machine) production line or the second automatic welder(welding machine) production line successively by workpiece, the initiating terminal of described the first belt conveyor line also is provided with photoelectric sensor and four-cylinder material-pulling device, described first, be respectively equipped with first on the second belt conveyor line, the second fully loaded photoelectric sensor.

The position that described the first automatic welder(welding machine) production line is connected with the first belt conveyor line is provided with the part flow arrangement workpiece detector, workpiece is pushed to the first cylinder material-pulling device of the first automatic welder(welding machine) production line, and the second cylinder material-pulling device that workpiece is pushed to the second belt conveyor line.

Between described the second automatic welder(welding machine) production line and the second belt conveyor line, by conveying device, be connected, the 3rd cylinder material-pulling device that the end of described the second belt conveyor line also is provided with the output device workpiece detector and workpiece is pushed to the second automatic welder(welding machine) production line.

Described the first automatic welder(welding machine) production line is provided with the first automatic welder(welding machine) and the 3rd fully loaded photoelectric sensor.

Described the second automatic welder(welding machine) production line is provided with the second automatic welder(welding machine) and the 4th fully loaded photoelectric sensor.

Also be provided with the first automatic tapping machine on described the first automatic welder(welding machine) production line.

Also be provided with the second automatic tapping machine on described the second automatic welder(welding machine) production line.

Described part flow arrangement comprises the first buoyance lift cylinder and the first lift block be connected with the first buoyance lift cylinder.

Described conveying device comprises the second buoyance lift cylinder and the second lift block be connected with the second buoyance lift cylinder.

As shown from the above technical solution, the utility model is by arranging two automatic welder(welding machine) production lines, with respect to an original automatic welder(welding machine) production line, can make part more than needed reduce, operating efficiency gets a promotion, be provided with respectively again automatic tapping machine on two automatic welder(welding machine) production lines simultaneously, realized the automated production of punch press and automatic welding, self-tapping synchronous operation.

The accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the A section enlarged drawing of Fig. 1;

Fig. 3 is the A-A cutaway view of Fig. 2;

Fig. 4 is the B-B cutaway view of Fig. 2;

Fig. 5 is the B section enlarged drawing of Fig. 1;

Fig. 6 is the C-C cutaway view of Fig. 5.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described further:

In a kind of full-automatic welding machine as shown in Figure 1 and tapping for shunting and the conveying mechanism of bottom plate of switch box, comprise connected successively deflector chute 1, the first belt conveyor line 2 and the second belt conveyor line 3, first, the second belt conveyor line 2, 3 end is respectively equipped with mutually arranged side by side first, the second automatic welder(welding machine) production line 4, 5, first, the second belt conveyor line 2, 3 junction is provided with part flow arrangement 6, part flow arrangement 6 branches to first successively by workpiece 7, the second automatic welder(welding machine) production line 4, 5, the initiating terminal of the first belt conveyor line 2 also is provided with photoelectric sensor 8 and four-cylinder material-pulling device 9, first, the second belt conveyor line 2, be respectively equipped with first on 3, the second fully loaded photoelectric sensor 10, 11.

Further, the position that the first automatic welder(welding machine) production line 4 is connected with the first belt conveyor line 2 is provided with part flow arrangement workpiece detector 25, workpiece 7 is pushed to the first cylinder material-pulling device 12 of the first automatic welder(welding machine) production line 4, and the second cylinder material-pulling device 13 that workpiece 7 is pushed to the second belt conveyor line 3.

Further, the first automatic welder(welding machine) production line 4 is provided with the first automatic welder(welding machine) 17 and the 3rd fully loaded photoelectric sensor 18.

Further, also be provided with the first automatic tapping machine 21 on the first automatic welder(welding machine) production line 4.

Further, as shown in Fig. 2-Fig. 4, part flow arrangement 6 comprises the first buoyance lift cylinder 23 and the first lift block be connected with the first buoyance lift cylinder 23.

Further, between the second automatic welder(welding machine) production line 5 and the second belt conveyor line 3, by conveying device 14, be connected, the 3rd cylinder material-pulling device 16 that the end of the second belt conveyor line 3 also is provided with output device workpiece detector 15 and workpiece 7 is pushed to the second automatic welder(welding machine) production line 3.

Further, the second automatic welder(welding machine) production line 5 is provided with the second automatic welder(welding machine) 19 and the 4th fully loaded photoelectric sensor 20.

Further, also be provided with the second automatic tapping machine 22 on the second automatic welder(welding machine) production line 5.

Further, as shown in Figure 5, Figure 6, conveying device 14 comprises the second buoyance lift cylinder 24 and the second lift block be connected with the second buoyance lift cylinder 24.

Photoelectric sensor 8 and four-cylinder material-pulling device 9 are by the PLC programmable controller controls, when the normal conveying of sending without any full signal, during 6 workpiece of the every detection of photoelectric sensor 8,9 runnings of four-cylinder material-pulling device once, the 6th workpiece released to the first belt conveyor line 2, this is because punch press is gone out 19000 workpiece average every day, article two, the self-tapping sealing wire is processed 14000 workpiece every day, deposit workpiece more than needed between the two, this structure can be shunted out by the workpiece of having more than needed in proportion.

The first cylinder material-pulling device 12 and the second cylinder material-pulling device 13 are also by the PLC programmable controller controls, when the normal conveying of sending without any full signal, when part flow arrangement workpiece detector 25 detects unit one 7, the first buoyance lift cylinder 23 of part flow arrangement 6 raises the first lift block, and make the first lift block concordant with the first automatic welder(welding machine) production line 4, at this moment the first cylinder material-pulling device 12 pushes to the first automatic welder(welding machine) production line 4 by workpiece 7; When part flow arrangement workpiece detector 25 detects second workpiece 7, the first buoyance lift cylinder 23 of part flow arrangement 6 raises the first lift block, and make the first lift block concordant with the second belt conveyor line 3, at this moment the second cylinder material-pulling device 13 is pushed into the second belt conveyor line 3 by workpiece 7, and continuing on to the second automatic welder(welding machine) production line 5, man-to-man supply so circulates.When output device workpiece detector 15 detects workpiece 7, the second buoyance lift cylinder 24 of conveying device 14 raises the second lift block, and make the second lift block concordant with the second automatic welder(welding machine) production line 5, then by the 3rd cylinder material-pulling device 16, workpiece 7 is pushed into to the second automatic welder(welding machine) production line 5.

Operation principle of the present utility model is as follows:

Workpiece to be processed 7 from the progressive die punching press of punch press out, the direction limited along deflector chute 1 slides to the first belt conveyor line 2, in the situation of normal operation, four-cylinder material-pulling device 9 is released the first belt conveyor line 2 by the 6th workpiece 7 of carrying, remaining will continue to carry, when workpiece 7 arrives part flow arrangement 6, when part flow arrangement workpiece detector 25 detects workpiece 7 by the first cylinder material-pulling device 12 with the second cylinder material-pulling device 13 is man-to-man that workpiece is pushed into to the first automatic welder(welding machine) production line 4 and the second belt conveyor line 3, workpiece 7 carries out automatic welding and tapping by the first automatic welder(welding machine) 17 and the first automatic tapping machine 21 after entering the first automatic welder(welding machine) production line 4, workpiece 7 is delivered to conveying device 14 by the second belt conveyor line 3, when output device workpiece detector 15 detects workpiece 7, the 3rd cylinder material-pulling device 16 pushes to the second automatic welder(welding machine) production line 5 by workpiece 7, and workpiece 7 carries out automatic welding and tapping by the second automatic welder(welding machine) 19 and the second automatic tapping machine 22 after entering the second automatic welder(welding machine) production line 5.

When the 3rd fully loaded photoelectric sensor 18 sends full signal, the workpiece that the first automatic welder(welding machine) production line 4 is described is enough, the first cylinder material-pulling device 12 no longer pusher is given the first automatic welder(welding machine) production line 4, the second cylinder material-pulling device 13 will push to the second belt conveyor line 3 to all workpiece 7, after the full signal of grade in an imperial examination three fully loaded photoelectric sensors 18 disappears, part flow arrangement 6 recovers man-to-man pusher pattern.When the 4th fully loaded photoelectric sensor 20 sends full signal, the workpiece that the second automatic welder(welding machine) production line 5 is described is enough, the 3rd cylinder material-pulling device 16 will stop pushing workpiece 7 to second automatic welder(welding machine) production lines, when the second fully loaded photoelectric sensor 11 sends full signal, the second cylinder material-pulling device 13 no longer pusher is given the second belt conveyor line 3, after the full signal of the 4th fully loaded photoelectric sensor 20 disappears, the 3rd cylinder material-pulling device 16 continues pusher, after the full signal of the second fully loaded photoelectric sensor 11 disappears, part flow arrangement 6 recovers man-to-man pusher pattern.

When the 3rd fully loaded photoelectric sensor 18 and the second fully loaded photoelectric sensor 11 send full signal simultaneously, part flow arrangement 6 stops shunting and carries, from punch press, carrying the workpiece 7 got off to push away amasss on the first belt conveyor line 2, the first fully loaded photoelectric sensor 10 sends full signal, four-cylinder material-pulling device 9 carries the workpiece 7 got off to release the first belt conveyor line 2 by all from punch press, and workpiece 7 is carried no longer downwards.After full signal disappears, recover to carry normally.

Above-described embodiment is described preferred embodiment of the present utility model; not scope of the present utility model is limited; under the prerequisite that does not break away from the utility model design spirit; various distortion and improvement that those of ordinary skills make the technical solution of the utility model, all should fall in the definite protection domain of the utility model claims.

Claims (9)

1. In a full-automatic welding machine and tapping for shunting and the conveying mechanism of bottom plate of switch box, it is characterized in that: comprise connected successively deflector chute (1), the first belt conveyor line (2) and the second belt conveyor line (3), described first, the second belt conveyor line (2, 3) end is respectively equipped with mutually arranged side by side first, the second automatic welder(welding machine) production line (4, 5), described first, the second belt conveyor line (2, 3) junction is provided with part flow arrangement (6), described part flow arrangement (6) branches to first successively by workpiece (7), the second automatic welder(welding machine) production line (4, 5), the initiating terminal of described the first belt conveyor line (2) also is provided with photoelectric sensor (8) and four-cylinder material-pulling device (9), described first, the second belt conveyor line (2, 3) be respectively equipped with first on, the second fully loaded photoelectric sensor (10, 11).
2. 2. shunting according to claim 1 and conveying mechanism, it is characterized in that: the position that described the first automatic welder(welding machine) production line (4) is connected with the first belt conveyor line (2) is provided with part flow arrangement workpiece detector (25), workpiece (7) is pushed to the first cylinder material-pulling device (12) of the first automatic welder(welding machine) production line (4), and the second cylinder material-pulling device (13) that workpiece (7) is pushed to the second belt conveyor line (3).
3. 3. shunting according to claim 1 and conveying mechanism, it is characterized in that: between described the second automatic welder(welding machine) production line (5) and the second belt conveyor line (3), by conveying device (14), be connected, the 3rd cylinder material-pulling device (16) that the end of described the second belt conveyor line (3) also is provided with output device workpiece detector (15) and workpiece (7) is pushed to the second automatic welder(welding machine) production line (3).
4. 4. shunting according to claim 1 and conveying mechanism is characterized in that: described the first automatic welder(welding machine) production line (4) is provided with the first automatic welder(welding machine) (17) and the 3rd fully loaded photoelectric sensor (18).
5. 5. shunting according to claim 1 and conveying mechanism is characterized in that: described the second automatic welder(welding machine) production line (5) is provided with the second automatic welder(welding machine) (19) and the 4th fully loaded photoelectric sensor (20).
6. 6. shunting according to claim 4 and conveying mechanism, is characterized in that: on described the first automatic welder(welding machine) production line (4), also be provided with the first automatic tapping machine (21).
7. 7. shunting according to claim 5 and conveying mechanism, is characterized in that: on described the second automatic welder(welding machine) production line (5), also be provided with the second automatic tapping machine (22).
8. 8. shunting according to claim 1 and conveying mechanism is characterized in that: described part flow arrangement (6) comprises the first buoyance lift cylinder (23) and the first lift block be connected with the first buoyance lift cylinder (23).
9. 9. shunting according to claim 3 and conveying mechanism is characterized in that: described conveying device (14) comprises the second buoyance lift cylinder (24) and the second lift block be connected with the second buoyance lift cylinder (24).

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