CN103962742A - Automatic multi-layer screen welding device - Google Patents

Abstract

The invention discloses an automatic multi-layer screen welding device. The automatic multi-layer screen welding device is characterized in that a plurality of feeding grooves throw screens to a plurality of workstation boxes simultaneously, and when the workstation boxes with multi-layer screens are switched to the positions of electric conduction polar shafts, the electric conduction polar shafts with the positive charge move downwards. When the electric conduction polar shafts make contact with the screens, the electric conduction polar shafts and the screens with the negative charge on a rotating platform form a closed loop, and therefore the multi-layer screens are welded. After the rotating platform continues to rotate by a certain angle, a lifting rod under the rotating platform moves upwards to abut against the workstation boxes from the bottoms of the workstation boxes so as to enable the workstation boxes to be turned over outwards, and therefore the welded screens fall into a receiving groove. The above operation is carried out in a reciprocating and cyclic mode. The automatic multi-layer screen welding device has the advantages that continuous work can be achieved, labor intensity is reduced, and welding quality keeps stable.

Description

A kind of automated, multi-level screen cloth welder

Technical field

The present invention relates to a kind of technical field of welder, especially, relate to a kind of technical field of automated, multi-level screen cloth welder.

Background technology

Quite extensive to the scope of its use both at home and abroad before sieve mesh, hole on screen cloth can play good filter effect, if by measure-alike, but the different screen cloth in the aperture of every layer is welded together, in currently available technology, be the artificial first screen cloth of multilayer same specification being placed on simultaneously, more manually carry out spot welding, this process is time-consuming takes a lot of work, can't work continuously, the quality of welding is also stable.

The technical problem solving

The present invention, in order to overcome the defect of prior art, discloses a kind of automated, multi-level screen cloth welder,

An object is: can realize and working continuously;

Another object is, reduces hand labor intensity;

Another object is, keeps welding quality stable.

Technical scheme of the present invention

A kind of automated, multi-level screen cloth welder, it is characterized in that, comprise, rotatable platform, it is made for metal material, comprise the first electrode tip being connected with described rotatable platform, described rotatable platform is driven and rotates taking described rotatable platform central point as center of circle step-by-step movement by the first driving mechanism, at the periphery of described rotatable platform m the hole that be equidistantly spaced; Feed well, comprise in described feed well and be placed with continuously multiple screen clothes on crawler belt, the second driving mechanism drives described crawler belt step-by-step movement to travel forward, described feed well is provided with at least continuously n above described hole motion path, the number of plies that wherein n is multilayer screen cloth, and feed well interval is each other identical with hole interval each other; Conduction pole axis, it is arranged on the top of described hole motion path, and is positioned at the downstream of described feed well, and at least arranges one, the lower end of described conduction pole axis is connected with second electrode tip relative with described the first electrode tip polarity, and the 3rd driving mechanism drives described conduction pole axis to move up and down; Controller, described the first driving mechanism, the second driving mechanism and the 3rd driving mechanism are connected with described controller through circuit, and open/stop state by described controller control; Wherein, after described rotatable platform turns an angle and stops, crawler belt in described feed well certain step pitch that all travels forward, so that described feed well is all put a screen cloth to losing in corresponding hole, described the 3rd driving mechanism upwards returns to original position after driving described conductive electrode to move in described hole under axially more simultaneously; In described feed well, the hole order number of described screen cloth is all identical, and between different described feed well, described sieve screen apertures order number is all different.

Preferably, automated, multi-level screen cloth welder of the present invention, it is characterized in that, also comprise, station box, its end face is planar structure and makes for metal material, and is separately positioned on described hole inside, along outward extending two rotating shafts in a certain diameter of described station box two ends and described rotatable platform pivot joint; Receiving vat, its bathtub construction that is upper end open, described receiving vat is positioned at the downstream of described conduction pole axis, and is positioned at that described rotatable platform is external and lower than described station box top height, described receiving vat arranges one; Elevating lever, it is arranged on the below of the inside side motion path of described station box rotating shaft, and between described feed well and described conduction pole axis, and arrange one, the described rotatable platform center of circle, described receiving vat and described elevating lever are within the scope of a vertical plane, 4 wheel driven actuation mechanism drives described elevating lever to move up and down, and is connected with described controller through circuit; Wherein, after described rotatable platform turns an angle and stops, described 4 wheel driven actuation mechanism drives described elevating lever to move upward in described hole and returns to original position downwards behind a certain position again.

Preferably, automated, multi-level screen cloth welder of the present invention, is characterized in that, also comprise, stopper, it is arranged on the inside below, side of described station box rotating shaft, and near the bottom surface of described station box, described stopper stops described station box to overturn to described rotatable platform center of circle direction; Spring, its two ends are affixed with described station box and described rotatable platform respectively, and described spring remains described station box is produced to certain elastic pulling force, and impels described station box near described stopper.

Preferably, automated, multi-level screen cloth welder of the present invention, it is characterized in that, described hole arranges 4-10, described feed well arranges 2-6 continuously, described conduction pole axis arranges 3-10, and described conduction pole axis is arranged in the regional extent of a described hole size, and the each angle of rotating of described rotatable platform is 25-65 degree.

Beneficial effect of the present invention

The present invention has overcome the defect of prior art, discloses a kind of automated, multi-level screen cloth welder, has reached, and can realize and working continuously; Reduce hand labor intensity; Keep welding quality stable.

Brief description of the drawings

Fig. 1 is top view of the present invention;

Fig. 2 is front view of the present invention.

Detailed description of the invention:

Below in conjunction with accompanying drawing and by embodiment, the invention will be further described.

As shown in Figures 1 and 2, automated, multi-level screen cloth welder of the present invention, is characterized in that, comprise,

Rotatable platform 2, it is made for metal material, comprise the first electrode tip being connected with described rotatable platform 2, described rotatable platform 2 driven by the first driving mechanism 8 (as stepper motor) and taking as described in rotatable platform 2 central points rotate as center of circle step-by-step movement, at the periphery of described rotatable platform 2 m the hole that be equidistantly spaced;

Feed well 4, comprise on the interior crawler belt of described feed well 4 and be placed with continuously multiple screen clothes 3, as described in the second driving mechanism 9 (as stepper motor) drives, crawler belt step-by-step movement travels forward, described feed well 4 is provided with at least continuously n above described hole motion path, wherein n is the number of plies of multilayer screen cloth 3, and feed well 4 interval is each other identical with hole interval each other, after described rotatable platform 2 often turns an angle and stops, described feed well 4 is lost downwards respectively and is put a screen cloth 3;

Conduction pole axis 6, it is arranged on the top of described hole motion path, and be positioned at the downstream of described feed well 4, and at least arrange one, the lower end of described conduction pole axis 6 is connected with second electrode tip relative with described the first electrode tip polarity, and as described in the 3rd driving mechanism 10 (as motor) drives, conduction pole axis 6 moves up and down;

Controller, described the first driving mechanism 8, the second driving mechanism 9 and the 3rd driving mechanism 10 are connected with described controller through circuit, and are opened/stop state and start-stop time by described controller control;

Wherein, after described rotatable platform 2 turns an angle and stops, crawler belt in described feed well 4 certain step pitch that all travels forward, so that described feed well 4 is all put a screen cloth 3 to losing in corresponding hole, simultaneously described the 3rd driving mechanism 10 (as the gas push cylinder in cylinder pumps) drive as described in conduction pole axis 6 upwards return to again original position after moving downward in described hole; The hole order number of the interior described screen cloth 3 of described feed well 4 is all identical, and between different described feed well 4, described screen cloth 3 hole order numbers are all different.

Automated, multi-level screen cloth welder of the present invention, is characterized in that, also comprises,

Station box 5, its end face is planar structure and makes for metal material, and is separately positioned on described hole inside, along outward extending two rotating shafts in a certain diameter of described station box 5 two ends and 2 pivot joints of described rotatable platform;

Receiving vat 1, its bathtub construction that is upper end open, described receiving vat 1 is positioned at the downstream of described conduction pole axis 6, and is positioned at that described rotatable platform 2 is external and lower than described station box 5 apical side heights, described receiving vat 1 arranges one;

Elevating lever 7, it is arranged on the below of the inside side motion path of described station box 5 rotating shafts, and between described feed well 4 and described conduction pole axis 6, and arrange one, described rotatable platform 2 centers of circle, described receiving vat 1 and described elevating lever 7 are within the scope of a vertical plane, as described in moving (as the motor) mechanism of 4 wheel driven drives, elevating lever 7 moves up and down, and is connected with described controller through circuit;

Wherein, after described rotatable platform 2 turns an angle and stops, described 4 wheel driven actuation mechanism 11 drives described elevating lever 7 to move upward in described hole and returns to original position downwards behind a certain position again, in the time that the front end of described elevating lever 7 is raised to highest point, elevating lever 7 impels described station box 5 outwards to overturn, now, the welded screen cloth connecting 3 can fall in receiving vat 1.

Automated, multi-level screen cloth welder of the present invention, is characterized in that, also comprises,

Stopper, it is arranged on the inside side below of described station box 5 rotating shafts, and near the bottom surface of described station box 5, described stopper stops described station box 5 to described rotatable platform 2 center of circle directions upsets;

Spring, its two ends are affixed with described rotatable platform 2 with described station box 5 respectively, described spring remains described station box 5 is produced to certain elastic pulling force, and impel described station box 5 near described stopper, when after elevating lever 7 playback, under the active force of spring, station box 5 returns to stopper position, reaches a kind of poised state.

Automated, multi-level screen cloth welder of the present invention, is characterized in that,

Described hole arranges 4-10, and described feed well 4 arranges 2-6 continuously, and described conduction pole axis 6 arranges 3-10, and described conduction pole axis 6 is arranged in the regional extent of a described hole size, and the each angle of rotating of described rotatable platform 2 is 25-65 degree.

Now there to be 5 and 3 feed wells 4 of 6 station boxes specifically to elaborate operation principle and the method for native system as example on rotatable platform 2.Controller control the first driving mechanism 8 stops waiting for 1-3 second after ordering about clockwise every rotation 60 degree of rotatable platform 2, and then stops waiting for 1-3 second after rotating 60 degree again, so repeats above two actions.Wherein, in the time that rotatable platform 2 stops, controller control the second driving mechanism 9 orders about each feed well 4 and travels forward after the distance of screen cloth 3 width and stop driving, and now each feed well 4 is all lost a screen cloth 3 downwards and entered in station box 5; Controller control the 3rd driving mechanism 10 orders about conduction pole axis 6 and moves downward to station box 5, and wait conducting electricity pole axis 6 while contacting with screen cloth 3, now electric current passes through screen cloth 3, and 3 moments of screen cloth are soldered, and the pole axis 6 that then conducts electricity upwards returns to original position; Controller control 4 wheel driven actuation mechanism 11 is ordered about elevating lever 7 and is moved upward, until make station box 5 rotate the angle of 10-30 degree, now screen cloth 3 just slips in receiving vat 1 in station box 5, and then elevating lever 7 moves downward original position again.

Above content described in this description is only to structure example of the present invention explanation.Those skilled in the art can make various amendments or supplement or adopt similar mode to substitute described specific embodiment; only otherwise depart from structure of the present invention or surmount this scope as defined in the claims, all should belong to protection scope of the present invention.

Claims (4)

1. an automated, multi-level screen cloth welder, is characterized in that, comprise,

Rotatable platform, it is made for metal material, comprise the first electrode tip being connected with described rotatable platform, described rotatable platform is driven and rotates taking described rotatable platform central point as center of circle step-by-step movement by the first driving mechanism, at the periphery of described rotatable platform m the hole that be equidistantly spaced;

Feed well, comprise in described feed well and be placed with continuously multiple screen clothes on crawler belt, the second driving mechanism drives described crawler belt step-by-step movement to travel forward, described feed well is provided with at least continuously n above described hole motion path, the number of plies that wherein n is multilayer screen cloth, and feed well interval is each other identical with hole interval each other;

Conduction pole axis, it is arranged on the top of described hole motion path, and is positioned at the downstream of described feed well, and at least arranges one, the lower end of described conduction pole axis is connected with second electrode tip relative with described the first electrode tip polarity, and the 3rd driving mechanism drives described conduction pole axis to move up and down;

Controller, described the first driving mechanism, the second driving mechanism and the 3rd driving mechanism are connected with described controller through circuit, and open/stop state by described controller control;

Wherein, after described rotatable platform turns an angle and stops, crawler belt in described feed well certain step pitch that all travels forward, so that described feed well is all put a screen cloth to losing in corresponding hole, described the 3rd driving mechanism upwards returns to original position after driving described conductive electrode to move in described hole under axially more simultaneously; In described feed well, the hole order number of described screen cloth is all identical, and between different described feed well, described sieve screen apertures order number is all different.

2. automated, multi-level screen cloth welder as claimed in claim 1, is characterized in that, also comprise,

Station box, its end face is planar structure and makes for metal material, and is separately positioned on described hole inside, along outward extending two rotating shafts in a certain diameter of described station box two ends and described rotatable platform pivot joint;

Receiving vat, its bathtub construction that is upper end open, described receiving vat is positioned at the downstream of described conduction pole axis, and is positioned at that described rotatable platform is external and lower than described station box top height, described receiving vat arranges one;

Elevating lever, it is arranged on the below of the inside side motion path of described station box rotating shaft, and between described feed well and described conduction pole axis, and arrange one, the described rotatable platform center of circle, described receiving vat and described elevating lever are within the scope of a vertical plane, 4 wheel driven actuation mechanism drives described elevating lever to move up and down, and is connected with described controller through circuit;

Wherein, after described rotatable platform turns an angle and stops, described 4 wheel driven actuation mechanism drives described elevating lever to move upward in described hole and returns to original position downwards behind a certain position again.

3. automated, multi-level screen cloth welder as claimed in claim 1 or 2, is characterized in that, also comprise,

Stopper, it is arranged on the inside side below of described station box rotating shaft, and near the bottom surface of described station box, described stopper stops described station box to overturn to described rotatable platform center of circle direction;

Spring, its two ends are affixed with described station box and described rotatable platform respectively, and described spring remains described station box is produced to certain elastic pulling force, and impels described station box near described stopper.

4. automated, multi-level screen cloth welder as claimed in claim 1, is characterized in that,

Described hole arranges 4-10, and described feed well arranges 2-6 continuously, and described conduction pole axis arranges 3-10, and described conduction pole axis is arranged in the regional extent of a described hole size, and the each angle of rotating of described rotatable platform is 25-65 degree.