CN114734259A - Metal welding and polishing integrated processing device - Google Patents

Abstract

The invention discloses a metal welding and polishing integrated processing device which comprises a slide rail, wherein the slide rail comprises a slide rail groove, a stop block, a rolling groove and a turnover table, the slide rail groove, the stop block and the rolling groove are arranged at the upper end of the slide rail, the turnover table is arranged at the lower end of the slide rail, and the turnover table is meshed with a servo motor through a gear; the sliding assembly comprises a sliding block and a sliding base, the sliding base is arranged at the lower end of the sliding block, and the sliding assembly is arranged in the sliding rail groove; and the fixing assembly comprises a piece fixing piece and a limiting piece, the piece fixing piece is installed at the upper end of the sliding block, and the limiting piece is installed inside the sliding block. The device does not need frequent installation and disassembly of articles and a fixed working table for welding and polishing, can realize the switching from welding to polishing only by controlling the servo motor, does not need manual carrying, and improves the overall processing efficiency.

Description

Metal welding and polishing integrated processing device

Technical Field

The invention relates to the technical field of welding, in particular to a processing device integrating metal welding and polishing.

Background

In the processing of mechanical parts, welding and polishing to the article are usually realized through two mechanical parts, the investment cost of machinery factories is increased, and the large space in a workshop is occupied, meanwhile, in the welding process of the article, the article needs to be clamped, after welding, the article needs to be disassembled, when polishing, the article needs to be clamped again, after polishing, the article is disassembled, how to repeatedly disassemble and assemble, the working strength of operators is increased, and meanwhile, the whole processing efficiency is reduced.

Disclosure of Invention

In order to solve the technical problems, the invention provides the following technical scheme: a metal welding and polishing integrated processing device comprises a slide rail, wherein the slide rail comprises a slide rail groove, a stop block, a rolling groove and a turnover table, the slide rail groove, the stop block and the rolling groove are arranged at the upper end of the slide rail, the turnover table is arranged at the lower end of the slide rail, and the turnover table is meshed with a servo motor through a gear; the sliding assembly comprises a sliding block and a sliding base, the sliding base is arranged at the lower end of the sliding block, and the sliding assembly is arranged in the sliding rail groove; and the fixing assembly comprises a piece fixing piece and a limiting piece, the piece fixing piece is installed at the upper end of the sliding block, and the limiting piece is installed inside the sliding block.

As a preferable scheme of the metal welding and polishing integrated processing device, the slide rail groove includes a first slide rail, an inclined slide rail, a second slide rail, an upper slide rail groove, a lower slide rail groove, and a side surface hole, one end of the inclined slide rail is connected to the first slide rail, the other end of the inclined slide rail is connected to the second slide rail, the upper slide rail groove is disposed at the upper end of the first slide rail, the lower slide rail groove is disposed at the lower end of the first slide rail, and the side surface hole is disposed at the side surface of the upper slide rail groove.

As a preferable scheme of the processing device integrating metal welding and polishing, the sliding base comprises connecting columns and a plurality of sliding columns, the connecting columns are arranged on the sliding columns, and the sliding columns are arranged in the lower sliding rail grooves.

As a preferable scheme of the processing device integrating metal welding and polishing, the sliding block comprises a cavity and a plurality of limiting holes, the cavity is arranged inside the sliding block, the limiting holes are arranged on the side surface of the sliding block, the limiting holes are communicated with the cavity, and the sliding block is arranged in the upper sliding rail groove.

As a preferable scheme of the metal welding and polishing integrated processing device, the sliding block further comprises a pressing hole, a fixed limiting block and a plurality of auxiliary overturning grooves, the pressing hole and the fixed limiting block are arranged at the upper end of the sliding block, the auxiliary overturning grooves are arranged on the side faces of the sliding block, and the number of the auxiliary overturning grooves is multiple.

As a preferable scheme of the metal welding and polishing integrated processing device, the object fixing member includes an object block and a circular groove, the object block is disposed on a side surface of the fixing member, the circular groove is disposed at a lower end of the fixing member, and the object block is matched with the fixed limiting block.

As a preferable scheme of the metal welding and polishing integrated processing device, the limiting member includes a lower member, a first side surface limiting block, and a second side surface limiting block, and the lower member is matched with the first side surface limiting block and the second side surface limiting block.

As a preferable scheme of the processing device integrating metal welding and polishing, the lower pressing piece comprises a lower pressing column and a lower pressing block, the lower pressing column is arranged at the upper end of the lower pressing piece, the lower pressing block is arranged at the lower end of the lower pressing piece, and the lower pressing column is matched with a spring to be inserted into the pressing hole in a penetrating mode.

As a preferable scheme of the metal welding and polishing integrated processing device, the first side limiting block comprises a first side column and a first side chute, the first side column is arranged on the side surface of the first side limiting block, the first side chute is arranged on the other side surface of the first side limiting block, and the first side column is matched with a spring and is inserted into the limiting hole in a penetrating manner.

As a preferable scheme of the processing device integrating metal welding and polishing, the second side limiting block comprises a second side column and a second side chute, the second side column is arranged on the side surface of the second side limiting block, the second side chute is arranged on the other side surface of the second side limiting block, the second side column is matched with a spring and inserted into the limiting hole, and the lower pressing block is in sliding fit with the first side chute and the second side chute.

The invention has the beneficial effects that: the device does not need frequent installation and disassembly of articles and a fixed working table for welding and polishing, can realize the switching from welding to polishing only by controlling the servo motor, does not need manual carrying, and improves the overall processing efficiency.

Drawings

FIG. 1 is an assembly view of metal welding and grinding.

Fig. 2 is a slide rail structure diagram of the processing device integrating metal welding and grinding.

Fig. 3 is a schematic sectional view showing the connection between the sliding assembly and the fixing assembly of the metal welding and polishing integrated processing device.

FIG. 4 is a connection structure diagram of a sliding block and a sliding base of the machining device integrating metal welding and polishing.

FIG. 5 is a view showing a structure of an object fixing member of the machining apparatus integrating metal welding and polishing.

Fig. 6 is a structure diagram of a limiting part of the machining device integrating metal welding and grinding.

In the figure: a slide rail 100; a slide rail groove 101; a first slide rail 101 a; an inclined slide rail 101 b; a second slide rail 101 c; the upper rail groove 101 d; a lower rail groove 101 e; a side hole 101 f; a stopper 102; a roll-over groove 103; a roll-over table 104; a slide assembly 200; a slider 201; a cavity 201 a; a stopper hole 201 b; a pressing hole 201 c; a fixed stopper 201 d; an auxiliary turning groove 201 e; a slide base 202; a connecting post 202 a; a sliding post 202 b; an object threaded hole 203; a sliding threaded hole 204; a fixing member 300; an article holding member 301; an object block 301 a; a circular groove 301 b; a stopper 302; the push-down piece 302 a; lower compression leg 302 a-1; a lower briquetting 302 a-2; a first side stopper 302 b; first lateral post 302 b-1; the first side diagonal groove 302 b-2; a second side stop block 302 c; second side post 302 c-1; the second side diagonal groove 302 c-2.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

Referring to fig. 1 to 3, a first embodiment of the present invention provides a metal welding and grinding integrated processing device including a slide rail 100, a slide assembly 200, and a fixing assembly 300.

Specifically, the slide rail 100 comprises a slide rail groove 101, a stopper 102, a rolling groove 103 and a turning table 104, wherein the slide rail groove 101, the stopper 102 and the rolling groove 103 are arranged at the upper end of the slide rail 100, and the turning table 104 is arranged at the lower end of the slide rail 100; the lower end of the overturning platform 104 is provided with a gear which is meshed with a gear on the servo motor, the stop block 102 and the overturning groove 103 are respectively provided with two parts which can be overturned twice, and the surface of the stop block 102 is provided with a plurality of round corners.

The sliding assembly 200 comprises a sliding block 201 and a sliding base 202, wherein the sliding base 202 is arranged at the lower end of the sliding block 201, and the sliding assembly 200 is installed on the sliding rail groove 101.

The fixing assembly 300 includes an object fixing member 301 and a limiting member 302, wherein the object fixing member 301 is mounted on the upper end of the sliding block 201, and the limiting member 302 is mounted inside the sliding block 201.

The slide rail groove 101 includes first slide rail 101a, oblique slide rail 101b, second slide rail 101c, last slide rail groove 101d, lower slide rail groove 101e and side hole 101f, and oblique slide rail 101b one end is connected with first slide rail 101a, and the other end is connected with second slide rail 101c, goes up slide rail groove 101d and sets up in first slide rail 101a upper end, and lower slide rail groove 101e sets up in first slide rail 101a lower extreme, and side hole 101f sets up in last slide rail groove 101d side.

The slide base 202 includes a connection column 202a and a plurality of slide columns 202b, the connection column 202a is disposed on the slide column 202b, and the slide columns 202b are mounted in the lower rail groove 101 e.

Preferably, an arc surface is arranged at the joint of one end of the inclined slide rail 101b and the first slide rail 101a, and an arc surface is arranged at the lower slide rail groove 101e corresponding to the joint; the other end is provided with the cambered surface with the junction of second slide rail 101c, and lower slide rail groove 101e that corresponds to it is provided with the cambered surface, and the sliding column 202b can better be on first slide rail 101a, oblique slide rail 101b and second slide rail 101c when lower slide rail groove 101e slides.

Preferably, the diameter of the connecting column 202a is equal to the distance between the first slide rail 101a, the inclined slide rail 101b and the second slide rail 101c, the diameter of the sliding column 202b is smaller than the length of the lower slide rail groove 101e and is larger than the distance between the first slide rail 101a, the inclined slide rail 101b and the second slide rail 101c, and the sliding column 202b does not separate from the rails during the sliding process.

The sliding block 201 is a cube and has the same size as the notch of the upper sliding track 101d, so that the sliding block 201 slides more stably in the first sliding track 101a, the inclined sliding track 101b and the second sliding track 101 c; the length of the connection column 202a is the same as the track thickness of the first slide rail 101a, the inclined slide rail 101b and the second slide rail 101 c.

When the automatic welding machine is used, one end of the sliding rail 100 is arranged beside the welding machine, the other end of the sliding rail 100 is arranged beside the polishing machine, the connecting column 202a and the sliding column 202b are arranged in the lower sliding rail groove 101e100, the sliding block 201 is arranged in the upper sliding rail groove 101d, a workpiece is placed on the object fixing piece 301 to be fixed and welded, the servo motor is started after welding is completed, the servo motor drives the gear to rotate, the overturning platform 104 rotates along with the gear, the sliding rail 100 slowly inclines, and the servo motor is closed when one end of the sliding rail 100 inclines to the side of the polishing machine.

The sliding rail 100 is in an inclined state as a whole, the sliding block 201 and the sliding column 202b slide in the upper sliding rail groove 101d and the lower sliding rail groove 101e, and the speed is gradually increased under the action of self gravity; the sliding block 201 and the sliding column 202b slide in the first sliding rail 101a for a certain distance and then enter the inclined sliding rail 101b through the arc surface, and when the sliding block slides for a certain distance, the first stop block 102 collides with the sliding block 201; because the slide block 201 is in a tilted state in the inclined slide rail 101b, the slide block 201 will turn over by 90 degrees in the first rolling groove 103 and then continue to slide in the inclined slide rail 101 b.

The sliding block 201 continuously slides for a certain distance and then collides with the second stop block 102, and rotates for 90 degrees in the second rolling groove 103, and the sliding block 201 continuously slides for a certain distance and then enters the second slide rail 101c and slides until the end of the rail is fixed; the object on the object fixing member 301 can just face the polishing machine after being turned over twice, and a worker can operate the polishing machine to polish the welded object.

After polishing, the object is detached to start the servo motor to return the slide rail 100 to the original position, the sliding block 201 enters the inclined slide rail 101b from the second slide rail 101c, and collides with the second stop block 102 and the first stop block 102 respectively when sliding for a certain distance, and 90-degree rotation occurs in the second rolling groove 103 and the first rolling groove 103, so that the object fixing member 301 fixed on the sliding block 201 can be restored to the original orientation position, and then enters the first slide rail 101a to slide to the initial position to perform installation, fixation and welding of the object.

The whole device does not need frequent disassembly and fixation of the object by workers, the conversion of the object from welding to polishing can be completed only by controlling the servo motor, the operation is simple, the workload is reduced, and the productivity is improved.

Example 2

Referring to fig. 1 to 6, a second embodiment of the present invention provides a manner of matching a sliding component 200 and a fixed component 300 based on the first embodiment.

The sliding block 201 comprises a cavity 201a and a limiting hole 201b, the cavity 201a is arranged inside the sliding block 201, the limiting hole 201b is arranged on the side surface of the sliding block 201, the limiting hole 201b is communicated with the cavity 201a, the limiting hole 201b is provided with a plurality of holes, and the sliding block 201 is arranged in the upper sliding rail groove 101d

The sliding block 201 further comprises a pressing hole 201c, a fixed limiting block 201d and an auxiliary turning groove 201e, the pressing hole 201c and the fixed limiting block 201d are arranged at the upper end of the sliding block 201, the auxiliary turning groove 201e is arranged on the side surface of the sliding block 201, and the auxiliary turning groove 201e is provided with a plurality of grooves.

The height of the side face of the preferred auxiliary overturning groove 201e is flush with the height of the position of the stop block 102, and a fillet is arranged in the auxiliary overturning groove 201e, so that the sliding block 201 can be overturned for 90 degrees better after the auxiliary overturning groove collides with the stop block 102; the fixed limiting blocks 201d are provided in plurality, and a certain distance is left between two adjacent fixed limiting blocks 201 d.

The object fixing piece 301 comprises an object block 301a and a circular groove 301b, wherein the object block 301a is arranged on the side face of the fixing piece 301, the circular groove 301b is arranged at the lower end of the fixing piece 301, and the object block 301a is matched with the fixing limiting block 201 d; the distance left between the two adjacent fixed limiting blocks 201d can just install the object block 301a, and the object fixing piece 301 is limited to a certain extent.

The sliding block 201 and the object fixing piece 301 are preferably provided with a sliding threaded hole 204 and a material threaded hole 203 respectively and are corresponding in position.

The limiting member 302 includes a lower member 302a, a first side limiting block 302b and a second side limiting block 302c, and the lower member 302a is engaged with the first side limiting block 302b and the second side limiting block 302 c.

The lower pressing piece 302a comprises a lower pressing column 302a-1 and a lower pressing block 302a-2, the lower pressing column 302a-1 is arranged at the upper end of the lower pressing piece 302a, the lower pressing block 302a-2 is arranged at the lower end of the lower pressing piece 302a, the lower pressing column 302a-1 is in welding fit with a spring and penetrates through the pressing hole 201c, and the other end of the spring is fixed inside the cavity.

Two lower pressing columns 302a-1 are arranged, and the number of the pressing holes 201c is the same as that of the lower pressing columns 302 a-1; the lower end corner of the lower pressing block 302a-2 is provided with two inclined planes.

The first side limiting block 302b comprises a first side column 302b-1 and a first side chute 302b-2, the first side column 302b-1 is arranged on the side surface of the first side limiting block 302b, the first side chute 302b-2 is arranged on the other side surface of the first side limiting block 302b, and the first side column 302b-1 and the spring are welded and matched to penetrate into the limiting hole 201 b.

The second side surface limiting block 302c comprises a second side surface column 302c-1 and a second side surface inclined groove 302c-2, the second side surface column 302c-1 is arranged on the side surface of the second side surface limiting block 302c, the second side surface inclined groove 302c-2 is arranged on the other side surface of the second side surface limiting block 302c, the second side surface column 302c-1 is welded and matched with a spring to be inserted into the limiting hole 201b, and the lower pressing block 302a-2 is in sliding fit with the first side surface inclined groove 302b-2 and the second side surface inclined groove 302 c-2.

Preferably, there are two first side posts 302b-1 and two second side posts 302c-1, respectively, so that the first side stopper 302b and the second side stopper 302c are more stable when moved,

when the sliding block 201 is used, an object is fixed on the object fixing piece 301, the lower pressing column 302a-1 moves downwards to a certain extent due to the weight of the object, the object fixing piece 301 is pressed by hands, the lower pressing column 302a-1 moves downwards under pressure, the inclined surface of the lower pressing block 302a-2 extrudes the first side inclined groove 302b-2 and the second side inclined groove 302c-2 to slide, the first side column 302b-1 and the second side column 302c-1 move to extend out of the limiting hole 201b and penetrate into the side hole 101f, and the whole device of the sliding block 201 cannot move.

And then further fixing the whole device and the object fixing member 301 by screw-fitting the object screw hole 203 and the slide screw hole 204 with bolts.

After the welding is finished, the bolt is rotated to release the pressure on the lower pressing column 302a-1, and the lower pressing column 302a-1, the first side column 302b-1 and the second side column 302c-1 are restored to the original positions under the action of the tensile force of the spring, so that the sliding block 201 is released from being fixed; the longer bolt is replaced so as to fix the object fixing member 301 without pressing the lower pressing post 302a-1 to fix the slide block 201.

When the sliding block 201 moves to the side of the polishing machine on the sliding rail 100, the bolt is replaced for fixing, then the object is polished, after polishing is completed, the object is detached, the servo motor is started, the sliding rail 100 returns to the original position, the sliding block 201 enters the inclined sliding rail 101b from the second sliding rail 101c, and collides with the second stop block 102 and the first stop block 102 respectively when sliding for a certain distance, and rotates for 90 degrees in the second rolling groove 103 and the first rolling groove 103, so that the object fixing piece 301 fixed on the sliding block 201 can be restored to the original orientation position, and then enters the first sliding rail 101a to slide to the original position for continuously mounting, fixing and welding the object.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a metal welding and integrative processingequipment that polishes which characterized in that: comprises the steps of (a) preparing a substrate,

the sliding rail (100) comprises a sliding rail groove (101), a stop block (102), a rolling groove (103) and a turning table (104), the sliding rail groove (101), the stop block (102) and the rolling groove (103) are arranged at the upper end of the sliding rail (100), the turning table (104) is arranged at the lower end of the sliding rail (100), and the turning table (104) is meshed with a servo motor through a gear;

the sliding assembly (200) comprises a sliding block (201) and a sliding base (202), the sliding base (202) is arranged at the lower end of the sliding block (01), and the sliding assembly (200) is installed in the sliding rail groove (101); and the number of the first and second groups,

the fixing assembly (300) comprises an object fixing piece (301) and a limiting piece (302), wherein the object fixing piece (301) is installed at the upper end of the sliding block (201), and the limiting piece (302) is installed inside the sliding block (201).

2. The metal welding and grinding integrated processing device of claim 1, characterized in that: slide rail groove (101) include first slide rail (101a), slide rail (101b) to one side, second slide rail (101c), go up slide rail groove (101d), slide rail groove (101e) and side hole (101f) down, slide rail (101b) one end to one side with first slide rail (101a) is connected, the other end with second slide rail (101c) is connected, go up slide rail groove (101d) set up in first slide rail (101a) upper end, slide rail groove (101e) set up down in first slide rail (101a) lower extreme, side hole (101f) set up in go up slide rail groove (101d) side.

3. The metal welding and grinding integrated processing device of claim 2, wherein: the sliding base (202) comprises a connecting column (202a) and a sliding column (202b), the connecting column (202a) is arranged on the sliding column (202b), the sliding column (202b) is provided with a plurality of columns, and the sliding column (202b) is arranged in the lower sliding rail groove (101 e).

4. The metal welding and grinding integrated processing device according to claim 2 or 3, characterized in that: the sliding block (201) comprises a cavity (201a) and a limiting hole (201b), the cavity (201a) is arranged inside the sliding block (201), the limiting hole (201b) is arranged on the side surface of the sliding block (201), the limiting hole (201b) is communicated with the cavity (201a), the limiting hole (201b) is provided with a plurality of holes, and the sliding block (201) is installed in the upper sliding rail groove (101 d).

5. The metal welding and grinding integrated processing device of claim 4, wherein: the sliding block (201) further comprises a pressing hole (201c), a fixed limiting block (201d) and an auxiliary turning groove (201e), the pressing hole (201c) and the fixed limiting block (201d) are arranged at the upper end of the sliding block (201), the auxiliary turning groove (201e) is arranged on the side face of the sliding block (201), and the auxiliary turning groove (201e) is provided with a plurality of grooves.

6. The metal welding and grinding integrated processing device of claim 5, wherein: the article fixing piece (301) comprises an article block (301a) and a circular groove (301b), the article block (301a) is arranged on the side face of the fixing piece (301), the circular groove (301b) is arranged at the lower end of the fixing piece (301), and the article block (301a) is matched with the fixing limiting block (201 d).

7. The metal welding and grinding integrated processing device according to claim 5 or 6, wherein: the limiting member (302) comprises a lower member (302a), a first side limiting block (302b) and a second side limiting block (302c), and the lower member (302a) is matched with the first side limiting block (302b) and the second side limiting block (302 c).

8. The metal welding and grinding integrated processing device of claim 7, wherein: the pressing piece (302a) comprises a pressing column (302a-1) and a pressing block (302a-2), the pressing column (302a-1) is arranged at the upper end of the pressing piece (302a), the pressing block (302a-2) is arranged at the lower end of the pressing piece (302a), and the pressing column (302a-1) is matched with a spring to be inserted into the pressing hole (201 c).

9. The metal welding and grinding integrated processing device of claim 8, wherein: the first side limiting block (302b) comprises a first side column (302b-1) and a first side chute (302b-2), the first side column (302b-1) is arranged on the side of the first side limiting block (302b), the first side chute (302b-2) is arranged on the other side of the first side limiting block (302b), and the first side column (302b-1) is inserted into the limiting hole (201b) in a matched mode with a spring.

10. The metal welding and grinding integrated processing device of claim 9, wherein: the second side limiting block (302c) comprises a second side column (302c-1) and a second side inclined groove (302c-2), the second side column (302c-1) is arranged on the side face of the second side limiting block (302c), the second side inclined groove (302c-2) is arranged on the other side face of the second side limiting block (302c), the second side column (302c-1) is matched with a spring to be inserted into the limiting hole (201b), and the lower pressing block (302a-2) is in sliding fit with the first side inclined groove (302b-2) and the second side inclined groove (302 c-2).

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