CN217192692U - Aluminum alloy plate surface punching device for preparing lead-silver alloy composite anode plate - Google Patents

Abstract

The utility model belongs to the field of aluminum alloy plate processing, in particular to an aluminum alloy plate surface punching device for preparing a lead-silver alloy composite anode plate, which comprises a supporting mechanism, a fixing mechanism and a moving mechanism, wherein the fixing mechanism is arranged above the supporting mechanism, and the moving mechanism is arranged above the fixing mechanism; the fixed establishment includes base, first optical axis, first ball screw, first servo motor, processing platform, cylinder, fixed plate, the supporting mechanism top is provided with the base, the base is inside to be provided with first optical axis, first optical axis one side is provided with first ball screw drives first ball screw rotatory through first servo motor, makes the processing platform remove, and it is rotatory to drive second ball screw through second servo motor, makes the removal frame remove, and third servo motor drives the rotation of third ball screw, makes the removal seat remove, and it is rotatory to utilize driving motor to drive the main shaft, reduces manual operation, improves production efficiency.

Description

Aluminum alloy plate surface punching device for preparing lead-silver alloy composite anode plate

Technical Field

The utility model belongs to aluminum alloy plate processing field specifically relates to a compound anode plate of lead-silver alloy preparation is with aluminum alloy plate surface perforating device.

Background

The aluminum alloy plate is an industrial building material, be used for each trade according to the difference of material, can be divided into non-painting product and painting product two main types according to the surface treatment mode, the trade of using has aircraft structure, the rivet, the guided missile component, truck wheel hub, packing and adiabatic aluminium foil, heat exchanger, the bulkhead, the wing rib, wing spar etc, the compound anode plate of plumbous silver alloy need use aluminum alloy plate installation fixed when manufacturing, aluminum alloy plate still need punch processing such as handling such as punch, the mode in aluminum alloy material processing hole has a lot, generally adopt the drill bit to punch, the hole precision of this kind of mode processing is high, need artifically punch when current perforating device uses, influence product precision and machining efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a compound anode plate of lead-silver alloy preparation is with aluminum alloy plate surface perforating device just.

The utility model discloses the technical scheme who adopts as follows:

the punching device for the surface of the aluminum alloy plate for preparing the lead-silver alloy composite anode plate comprises a supporting mechanism, a fixing mechanism and a moving mechanism, wherein the fixing mechanism is arranged above the supporting mechanism, and the moving mechanism is arranged above the fixing mechanism; the fixing mechanism comprises a base, a first optical axis, a first ball screw, a first servo motor, a processing table, air cylinders and a fixing plate, the base is arranged above the supporting mechanism, the first optical axis is arranged inside the base, the first ball screw is arranged on one side of the first optical axis, the first servo motor is arranged at the end part of the first ball screw, the processing table is arranged outside the first optical axis and the first ball screw, the two air cylinders are arranged above the processing table, and the fixing plate is arranged on an output shaft of each air cylinder; the moving mechanism comprises a portal frame, a guide rail, a second ball screw, a second servo motor, a moving frame, a second optical axis, a third ball screw, a third servo motor, a moving seat, a gear box, a driving motor, a spindle and a cutter, the portal frame is arranged outside the processing table, the guide rail is arranged above the portal frame, the second ball screw is arranged at the front part of the portal frame, the second servo motor is arranged at the end part of the second ball screw, the moving frame is arranged outside the guide rail and the second ball screw, the second optical axis is arranged inside the moving frame, the third ball screw is arranged on one side of the second optical axis, the third servo motor is arranged at the end part of the third ball screw, the moving seat is arranged outside the second optical axis and the third ball screw, the gear box is arranged above the moving seat, the driving motor is arranged above the gear box, the main shaft is arranged below the gear box, and the cutter is arranged inside the main shaft.

Preferably: the supporting mechanism comprises a supporting frame, a workbench, a protective cover, an opening and closing door, a handle and a sprayer, wherein the workbench is arranged below the base, the supporting frame is arranged below the workbench, the working table is arranged above the workbench and positioned at the rear part of the workbench and provided with a plurality of sprayers, the rectangular collecting tank is arranged above the workbench and positioned at the front part of the workbench and provided with a slope surface, the protective cover is arranged outside the workbench, the front part of the protective cover is provided with two opening and closing doors, and the handle is arranged outside the opening and closing doors.

So set up, the shower nozzle carries out iron fillings clearance.

Preferably: the support frame with workstation welded connection, the guard shield with the shower nozzle all with workstation bolted connection, open and shut the door with guard shield hinge connection, the handle with open and shut door welded connection.

So set up, the shower nozzle carries out iron fillings clearance, the support frame with the workstation plays supporting role.

Preferably: the base respectively with the workstation with first optical axis welded connection, first ball screw with base bearing connects, first servo motor shell with base bolted connection, first servo motor output shaft with first ball screw one end coupling joint, the processing platform with first optical axis sliding connection, the processing platform with first ball screw threaded connection, the cylinder shell with processing platform bolted connection, the cylinder output shaft with fixed plate welded connection.

So set up, first servo motor drives first ball screw is rotatory, makes the processing platform removes.

Preferably: the portal frame is connected with the workbench in a welded mode, the guide rail is connected with the portal frame through a bolt, the second ball screw is connected with the portal frame through a bearing, the shell of the second servo motor is connected with the portal frame through a bolt, and the output shaft of the second servo motor is connected with one end of the second ball screw through a coupler.

So set up, second servo motor drives the rotation of second ball screw makes the removal frame removes.

Preferably: the movable frame is connected with the guide rail in a sliding mode, the movable frame is connected with the second ball screw in a threaded mode, the second optical axis is connected with the movable frame in a welded mode, the third ball screw is connected with a movable frame bearing, the shell of the third servo motor is connected with the movable frame through a bolt, and the output shaft of the third servo motor is connected with one end of the third ball screw in a coupling mode.

So set up, third servo motor drives the rotation of third ball screw makes the removal seat removes.

Preferably: the movable seat is connected with the second optical axis in a sliding mode, the movable seat is connected with the third ball screw in a threaded mode, the gear box shell is connected with the driving motor shell and the movable seat through bolts respectively, the gear box is connected with the driving motor output shaft and the main shaft gear respectively, and the main shaft is connected with the movable seat through a bearing.

So set up, driving motor drives the main shaft is rotatory.

The utility model has the advantages that: the first ball screw is driven to rotate through the first servo motor, the machining table is made to move, the second ball screw is driven to rotate through the second servo motor, the moving frame is made to move, the third servo motor drives the third ball screw to rotate, the moving seat is made to move, the driving motor is used for driving the spindle to rotate, manual operation is reduced, and production efficiency is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of an aluminum alloy plate surface punching device for preparing a lead-silver alloy composite anode plate according to the present invention;

FIG. 2 is a schematic perspective view of an aluminum alloy plate surface punching device for preparing a lead-silver alloy composite anode plate according to the present invention;

FIG. 3 is a right side view of a workbench of the aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate of the utility model;

fig. 4 is a schematic perspective view of a fixing mechanism of the aluminum alloy plate surface perforating device for preparing the lead-silver alloy composite anode plate of the present invention;

fig. 5 is a schematic perspective view of a moving mechanism of the aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate of the present invention.

The reference numerals are explained below:

1. a support mechanism; 2. a fixing mechanism; 3. a moving mechanism; 11. a support frame; 12. a work table; 13. a shield; 14. opening and closing the door; 15. a handle; 16. a spray head; 21. a base; 22. a first optical axis; 23. a first ball screw; 24. a first servo motor; 25. a processing table; 26. a cylinder; 27. a fixing plate; 31. a gantry; 32. a guide rail; 33. a second ball screw; 34. a second servo motor; 35. a movable frame; 36. a second optical axis; 37. a third ball screw; 38. a third servo motor; 39. a movable seat; 301. a gear case; 302. a drive motor; 303. a main shaft; 304. and (4) a cutter.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The invention will be further described by means of examples in conjunction with the accompanying drawings.

Examples

As shown in fig. 1-5, the aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate comprises a supporting mechanism 1, a fixing mechanism 2 and a moving mechanism 3, wherein the fixing mechanism 2 is arranged above the supporting mechanism 1, and the moving mechanism 3 is arranged above the fixing mechanism 2; the fixing mechanism 2 comprises a base 21, a first optical axis 22, a first ball screw 23, a first servo motor 24, a processing table 25, a cylinder 26 and a fixing plate 27, the base 21 is arranged above the supporting mechanism 1, the first optical axis 22 is arranged inside the base 21, the first ball screw 23 is arranged on one side of the first optical axis 22, the first servo motor 24 is arranged at the end part of the first ball screw 23, the processing table 25 is arranged outside the first optical axis 22 and the first ball screw 23, the two cylinders 26 are arranged above the processing table 25, and the fixing plate 27 is arranged on an output shaft of the cylinder 26; the moving mechanism 3 comprises a portal frame 31, a guide rail 32, a second ball screw 33, a second servo motor 34, a moving frame 35, a second optical axis 36, a third ball screw 37, a third servo motor 38, a moving seat 39, a gear box 301, a driving motor 302, a main shaft 303 and a cutter 304, the portal frame 31 is arranged outside the processing table 25, the guide rail 32 is arranged above the portal frame 31, the second ball screw 33 is arranged at the front part of the portal frame 31, the second servo motor 34 is arranged at the end part of the second ball screw 33, the moving frame 35 is arranged outside the guide rail 32 and the second ball screw 33, the second optical axis 36 is arranged inside the moving frame 35, the third ball screw 37 is arranged at one side of the second optical axis 36, the third servo motor 38 is arranged at the end part of the third ball screw 37, the moving seat 39 is arranged outside the second optical axis 36 and the third ball screw 37, the gear box 301 is arranged above the moving seat 39, a driving motor 302 is arranged above the gear box 301, a main shaft 303 is arranged below the gear box 301, and a cutter 304 is arranged inside the main shaft 303.

Preferably: the supporting mechanism 1 comprises a supporting frame 11, a workbench 12, a protective cover 13, an opening and closing door 14, a handle 15 and a spray head 16, the workbench 12 is arranged below a base 21, the supporting frames 11 are arranged below the workbench 12, the spray heads 16 are arranged above the workbench 12 and at the rear part of the workbench 12, a rectangular collecting groove is arranged above the workbench 12 and at the front part of the workbench 12, the surface of the workbench 12 is provided with a slope surface, the protective cover 13 is arranged outside the workbench 12, the two opening and closing doors 14 are arranged at the front part of the protective cover 13, and the handle 15 is arranged outside the opening and closing doors 14; the support frame 11 is connected with the workbench 12 in a welding mode, the protective cover 13 and the spray head 16 are both connected with the workbench 12 through bolts, the opening and closing door 14 is connected with the protective cover 13 through hinges, and the handle 15 is connected with the opening and closing door 14 in a welding mode; the base 21 is respectively welded with the workbench 12 and the first optical axis 22, the first ball screw 23 is in bearing connection with the base 21, the shell of the first servo motor 24 is in bolt connection with the base 21, the output shaft of the first servo motor 24 is in shaft coupling connection with one end of the first ball screw 23, the processing table 25 is in sliding connection with the first optical axis 22, the processing table 25 is in threaded connection with the first ball screw 23, the shell of the cylinder 26 is in bolt connection with the processing table 25, and the output shaft of the cylinder 26 is in welded connection with the fixing plate 27; the gantry 31 is welded with the workbench 12, the guide rail 32 is in bolted connection with the gantry 31, the second ball screw 33 is in bearing connection with the gantry 31, the outer shell of the second servo motor 34 is in bolted connection with the gantry 31, and the output shaft of the second servo motor 34 is in coupling connection with one end of the second ball screw 33; the moving frame 35 is connected with the guide rail 32 in a sliding mode, the moving frame 35 is in threaded connection with the second ball screw 33, the second optical axis 36 is connected with the moving frame 35 in a welding mode, the third ball screw 37 is in bearing connection with the moving frame 35, the shell of the third servo motor 38 is in bolt connection with the moving frame 35, and the output shaft of the third servo motor 38 is in coupling connection with one end of the third ball screw 37; the movable base 39 is connected with the second optical axis 36 in a sliding mode, the movable base 39 is connected with the third ball screw 37 in a threaded mode, the shell of the gear box 301 is connected with the shell of the driving motor 302 and the movable base 39 through bolts, the gear box 301 is connected with the output shaft of the driving motor 302 and the main shaft 303 through gears, and the main shaft 303 is connected with the movable base 39 through bearings.

The working principle is as follows: when the drilling machine is used, a workpiece is placed above the workbench 12, the air cylinder 26 is started to clamp the workpiece through the fixing plate 27, the first servo motor 24 is started to drive the first ball screw 23 to rotate, the workpiece is moved to the position below the cutter 304, the driving motor 302 is started to drive the main shaft 303 and the cutter 304 to rotate, drilling processing is carried out, and in the processing process, the first servo motor 24 is matched to drive the processing table 25 to move, the second servo motor 34 drives the moving frame 35 to move, the third servo motor 38 drives the cutter 304 to move, and different hole site processing is carried out.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the knowledge of those skilled in the art.

Claims (7)

1. The utility model provides a lead-silver alloy composite anode plate preparation is with aluminum alloy plate surface perforating device, includes supporting mechanism (1), its characterized in that: the device is characterized by also comprising a fixing mechanism (2) and a moving mechanism (3), wherein the fixing mechanism (2) is arranged above the supporting mechanism (1), and the moving mechanism (3) is arranged above the fixing mechanism (2); the fixing mechanism (2) comprises a base (21), a first optical axis (22), a first ball screw (23), a first servo motor (24), a processing table (25), an air cylinder (26) and a fixing plate (27), the base (21) is arranged above the supporting mechanism (1), the first optical axis (22) is arranged inside the base (21), the first ball screw (23) is arranged on one side of the first optical axis (22), the first servo motor (24) is arranged at the end part of the first ball screw (23), the processing table (25) is arranged outside the first optical axis (22) and the first ball screw (23), two air cylinders (26) are arranged above the processing table (25), and the fixing plate (27) is arranged on an output shaft of each air cylinder (26); the moving mechanism (3) comprises a portal frame (31), a guide rail (32), a second ball screw (33), a second servo motor (34), a moving frame (35), a second optical axis (36), a third ball screw (37), a third servo motor (38), a moving seat (39), a gear box (301), a driving motor (302), a spindle (303) and a cutter (304), the portal frame (31) is arranged outside the processing table (25), the guide rail (32) is arranged above the portal frame (31), the second ball screw (33) is arranged in front of the portal frame (31), the second servo motor (34) is arranged at the end part of the second ball screw (33), the moving frame (35) is arranged outside the guide rail (32) and the second ball screw (33), and the second optical axis (36) is arranged inside the moving frame (35), second optical axis (36) one side is provided with third ball screw (37), third ball screw (37) tip is provided with third servo motor (38), second optical axis (36) with third ball screw (37) outside is provided with remove seat (39), it is provided with to remove seat (39) top gear box (301), gear box (301) top is provided with driving motor (302), gear box (301) below is provided with main shaft (303), main shaft (303) inside is provided with cutter (304).

2. The aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate according to claim 1, which is characterized in that: supporting mechanism (1) is including support frame (11), workstation (12), guard shield (13), door (14), handle (15), shower nozzle (16) open and shut, base (21) below is provided with workstation (12), workstation (12) below is provided with a plurality ofly support frame (11), workstation (12) top is located the rear portion and is provided with a plurality ofly shower nozzle (16), workstation (12) top is located the front portion and is provided with the rectangle collecting vat, workstation (12) surface sets up to domatic, workstation (12) outside is provided with guard shield (13), guard shield (13) front portion is provided with two door (14) opens and shuts, door (14) outside is provided with handle (15) opens and shuts.

3. The aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate according to claim 2, characterized in that: support frame (11) with workstation (12) welded connection, guard shield (13) with shower nozzle (16) all with workstation (12) bolted connection, door (14) that open and shut with guard shield (13) hinge connection, handle (15) with door (14) welded connection opens and shuts.

4. The aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate according to claim 2, characterized in that: base (21) respectively with workstation (12) with first optical axis (22) welded connection, first ball screw (23) with base (21) bearing connection, first servo motor (24) shell with base (21) bolted connection, first servo motor (24) output shaft with first ball screw (23) one end coupling joint, processing platform (25) with first optical axis (22) sliding connection, processing platform (25) with first ball screw (23) threaded connection, cylinder (26) shell with processing platform (25) bolted connection, cylinder (26) output shaft with fixed plate (27) welded connection.

5. The aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate according to claim 2, characterized in that: the gantry (31) is connected with the workbench (12) in a welded mode, the guide rail (32) is connected with the gantry (31) through bolts, the second ball screw (33) is connected with the gantry (31) through bearings, a shell of the second servo motor (34) is connected with the gantry (31) through bolts, and an output shaft of the second servo motor (34) is connected with one end of the second ball screw (33) through a coupler.

6. The aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate according to claim 5, characterized in that: remove frame (35) with guide rail (32) sliding connection, remove frame (35) with second ball screw (33) threaded connection, second optical axis (36) with remove frame (35) welded connection, third ball screw (37) with remove frame (35) bearing connection, third servo motor (38) shell with remove frame (35) bolted connection, third servo motor (38) output shaft with third ball screw (37) one end coupling joint.

7. The aluminum alloy plate surface punching device for preparing the lead-silver alloy composite anode plate according to claim 5, characterized in that: remove seat (39) with second optical axis (36) sliding connection, remove seat (39) with third ball screw (37) threaded connection, gear box (301) shell respectively with driving motor (302) shell with remove seat (39) bolted connection, gear box (301) respectively with driving motor (302) output shaft with main shaft (303) gear connection, main shaft (303) with remove seat (39) bearing connection.

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