CN115283895A - Welding equipment for metal material production - Google Patents

Abstract

The invention provides welding equipment for producing metal materials, which relates to the technical field of welding equipment and comprises a base, wherein the base is of a rectangular structure, two vertical supporting rods are symmetrically welded on the middle sections of left and right side rods of the base, two mounting rings are symmetrically welded on the top end sections of the two vertical supporting rods, two mounting seats are symmetrically and rotatably mounted on the two mounting rings, and the two mounting seats are used for clamping two metal material blocks to be welded; one end of the left rack close to the transmission gear is welded with a top block, the top block slides leftwards and is abutted and contacted with the sliding shaft, when two metal material blocks are unloaded, the racks on the right side which continuously slide rightwards can be meshed to drive the racks on the left side to continuously slide leftwards and be in pushing contact with the sliding shaft, the two positioning frames are controlled to slide backwards and be pulled out in a linkage pushing mode, the springs on the two hexagonal vertical supporting shafts can automatically push and drive the two mounting seats to turn upwards and reset, and the trouble that the two mounting seats are loosened by additional manual operation after welding is finished is eliminated.

Description

Welding equipment for metal material production

Technical Field

The invention relates to the technical field of welding equipment, in particular to welding equipment for producing metal materials.

Background

Some blocking of metal material sets up, some are the board setting, in addition be the pipe, be the stick setting, some blocking's metal material need weld the combination when using in production be in the same place, and this welding equipment that will use metal material production to use.

The existing welding equipment is mostly provided with a steering switching mechanism for bearing a splicing structure and four-side welding seams for being suitable for welding massive metal materials, but after welding is completed, a positioning part on the bearing splicing structure is loosened to unload the welded metal material blocks, then the steering switching mechanism of the welding seams is reset in a rotating mode to perform secondary loading welding, and the operation is performed step by step, so that the operation is troublesome, labor-consuming and inefficient.

Disclosure of Invention

In view of the above, the invention provides a welding device for metal material production, which has racks, when two metal material blocks are unloaded and continuously slide rightwards, the racks on the right side can be meshed to drive the racks on the left side to continuously slide leftwards and contact with a sliding shaft to push the sliding shaft to move leftwards, linkage pushing controls two positioning frames to slide backwards and pull out, so that springs on two hexagonal vertical support shafts can automatically push and drive two mounting seats to turn upwards and reset, and the trouble of additionally manually operating and loosening two mounting seat steering positioning components after welding is omitted.

The invention provides a purpose and an effect of welding equipment for producing metal materials, which specifically comprise the following steps: the base is of a rectangular structure, two vertical supporting rods are symmetrically welded on the middle sections of left and right side rods of the base, two mounting rings are symmetrically welded on the top end sections of the two vertical supporting rods, two mounting seats are symmetrically and rotatably mounted on the two mounting rings, and the two mounting seats are used for clamping two metal material blocks to be welded; two F-shaped support rods are symmetrically welded on the top end sections of the two vertical support rods, and two worms are symmetrically and rotatably mounted on the four F-shaped support rods; two L-shaped positioning shafts are symmetrically welded on the rear side stay bar of the base left and right, and a U-shaped positioning frame is slidably mounted on the two L-shaped positioning shafts through spring pushing; a cross brace connecting rod is welded at the middle section of the two vertical brace supporting rods, and a transmission gear is rotatably mounted at the middle section of the cross brace connecting rod; two racks are arranged on the middle sections of the two vertical supporting rods in a vertically spaced, left-right opposite penetrating and sliding manner, and the two racks are in meshing transmission with the transmission gear; two hexagonal vertical supporting shafts are symmetrically welded on positions, close to the two vertical supporting rods, on the left side rod and the right side rod of the base, two F-shaped racks are symmetrically and slidably mounted on the two hexagonal vertical supporting shafts, and a pressing frame with a U-shaped structure is hung at the bottoms of the two F-shaped racks; and a finger push plate is welded at one end of the right rack close to the transmission gear.

Furthermore, a vertical support force transmission shaft is welded to the middle section of the cross support part of the positioning frame, a connecting rod is rotatably connected to the top end section of the vertical support force transmission shaft, and the head end of the connecting rod penetrates through the sliding shaft rotatably provided with a vertical support.

Furthermore, a transverse short shaft is welded on the right half section of the cross-brace connecting rod, and the sliding shaft is correspondingly matched with the transverse short shaft in a sliding manner.

Further, the head end of longitudinal insertion plate all is the structure of dissecting about the locating frame, and steps on the stull connecting axle of pressing the frame bottom and the head end inclined plane of longitudinal insertion plate about the locating frame and lean on the contact.

Furthermore, the whole installation seat is of an L-shaped structure, and the installation seat is composed of two L-shaped clamping plates with front and back symmetrical bottoms and vertical baffles welded at the tail ends of the two L-shaped clamping plates.

Furthermore, two hexagonal rotating shafts are oppositely welded and supported at the centers of the vertical baffles of the two mounting seats, two worm gears are sleeved at the tail ends of the two hexagonal rotating shafts, and the two worms are correspondingly meshed with the two worm gears for transmission.

Furthermore, two sliding rings are slidably mounted on the two hexagonal rotating shafts through spring pushing, two L-shaped clamping rods are symmetrically welded on the two sliding rings, and positioning sleeves with two square structures are symmetrically welded on the top ends of the vertical baffles of the two mounting seats.

Furthermore, horizontal parts of the L-shaped clamping rods at four positions are in penetrating sliding fit with the positioning sleeves at four positions, and top end surfaces of two metal material blocks to be welded are in abutting contact with the L-shaped clamping rods at four positions.

Furthermore, two small-diameter gears are sleeved at the rear ends of the two worms, and two F-shaped racks are correspondingly meshed with the two small-diameter gears for transmission.

Furthermore, a vertical support rod is welded on each of two sections of the racks far away from the transmission gear, a force transmission ring is welded on each of the top ends of the two vertical support rods, the two force transmission rings and the two sliding rings are rotatably sleeved together, a top block is welded at one end, close to the transmission gear, of the rack on the left side, and the top block slides leftwards and is abutted and contacted with the sliding shaft.

Advantageous effects

1. According to the invention, the two worm wheels and the two mounting seats are driven to rotate in a reciprocating manner by the meshing of the positive and negative worms, so that the four welding seams between the two metal material blocks are switched in a rotating manner, and the four welding seams are conveniently welded in an all-round manner.

2. According to the invention, the foot-operated force can be adopted to drive the two F-shaped racks to move downwards by the treading frame, compared with the manual force operation, the two F-shaped racks are not occupied by two hands and are more labor-saving, and the springs on the two hexagonal vertical support shafts can push and drive the two F-shaped racks to slide upwards for resetting, so that the trouble of manually steering and resetting the two mounting seats is saved.

3. According to the invention, when two metal material blocks are unloaded, the racks on the right side which continuously slide rightwards can be meshed to drive the racks on the left side to continuously slide leftwards and contact with the sliding shaft to push the sliding shaft to move leftwards together, the linkage pushing controls the two positioning frames to slide and be pulled out, so that the springs on the two hexagonal vertical supporting shafts can automatically push the two mounting seats to be turned upwards for resetting, the trouble of additionally manually loosening the steering positioning parts of the two mounting seats after welding is eliminated, the use is convenient and time-saving, the loosening action and the rotary resetting action of the two mounting seats can be completed at one time, and the trouble of sequential operation in steps is eliminated.

4. According to the invention, two metal material blocks welded together can impact the cross brace connecting rod and the two racks when falling and unloading, and the space between the two metal material blocks and the cross brace connecting rod as well as the two racks is moderate, so that the falling impact force of the two metal material blocks is small, and the cross brace connecting rod and the two racks can be prevented from being collided and deformed in a range which can be borne by the cross brace connecting rod and the two racks for a long time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

fig. 1 is an overall front-side structural view of a welding apparatus for metallic material production of an embodiment of the present invention;

fig. 2 is an overall rear side structural view of the welding apparatus for metallic material production of the embodiment of the present invention;

FIG. 3 is an unloaded state of a mounting seat of a welding apparatus for metallic material production according to an embodiment of the present invention;

FIG. 4 is a schematic view of a positioning frame of a welding apparatus for metal material production according to an embodiment of the present invention;

FIG. 5 is a schematic view of a base structure of a welding apparatus for use in the production of metallic materials in accordance with an embodiment of the present invention;

FIG. 6 is a schematic view of a positioning frame of a welding apparatus for producing a metallic material according to an embodiment of the present invention;

FIG. 7 is a schematic view of an F-shaped rack configuration for a welding apparatus for metal material production in accordance with an embodiment of the present invention;

FIG. 8 is a schematic view of a slip ring configuration for a welding apparatus for metallic material production in accordance with an embodiment of the present invention;

FIG. 9 is a schematic view of a mount structure of a welding apparatus for metallic material production according to an embodiment of the present invention;

fig. 10 is an enlarged structural view of a portion a in fig. 2 of the welding apparatus for metallic material production according to the embodiment of the present invention.

List of reference numerals

1. A base; 101. a vertical supporting rod; 102. a hexagonal vertical supporting shaft; 103. a worm; 104. an L-shaped positioning shaft; 105. a cross brace connecting rod; 106. a transfer gear; 107. a transverse short axis; 2. an F-shaped rack; 201. treading the frame; 3. a positioning frame; 301. a vertical support force transmission shaft; 302. a connecting rod; 303. a slide shaft; 4. a mounting seat; 401. a hexagonal rotating shaft; 402. a worm gear; 403. a slip ring; 404. an L-shaped clamping rod; 405. a positioning sleeve; 5. a rack; 501. a top block; 502. a force transmission ring.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to 10:

the invention provides a welding device for producing a metal material, which comprises a base 1, wherein the base 1 is of a rectangular structure, two vertical supporting rods 101 are symmetrically welded on the middle sections of left and right side rods of the base 1, two mounting rings are symmetrically welded on the top end sections of the two vertical supporting rods 101, two mounting seats 4 are symmetrically and rotatably mounted on the two mounting rings, and the two mounting seats 4 are used for clamping two metal material blocks to be welded; two F-shaped support rods are symmetrically welded on the top end sections of the two vertical support rods 101, and two worms 103 are symmetrically and rotatably mounted on the four F-shaped support rods; two L-shaped positioning shafts 104 are welded on the rear side stay bar of the base 1 in a left-right symmetrical manner, and a U-shaped positioning frame 3 is slidably arranged on the two L-shaped positioning shafts 104 through spring pushing; the left side rod and the right side rod of the base 1 are symmetrically welded on two vertical supporting rods 101 at positions close to the two six-edge vertical supporting shafts 102, and the top ends of the two six-edge vertical supporting shafts 102 are correspondingly welded and fixed with two F-shaped supporting rods at the front side; a cross brace connecting rod 105 is welded on the middle section of the two vertical brace supporting rods 101, and a transmission gear 106 is rotatably mounted on the middle section of the cross brace connecting rod 105; two racks 5 are oppositely arranged on the middle section of the two vertical supporting struts 101 in a left-right opposite penetrating sliding mode at intervals up and down, and the two racks 5 are in meshing transmission with the transmission gear 106; two F-shaped racks 2 are symmetrically and slidably mounted on the two hexagonal vertical supporting shafts 102, and a U-shaped stepping frame 201 is hung at the bottoms of the two F-shaped racks 2; one end of the right rack 5 close to the transmission gear 106 is welded with a finger push plate; the mounting seat 4 is integrally in an L-shaped structure, and the mounting seat 4 consists of two L-shaped clamping plates with the bottoms symmetrical front and back and vertical baffles welded at the tail ends of the two L-shaped clamping plates; two hexagonal rotating shafts 401 are oppositely welded and supported at the centers of the vertical baffles of the two mounting seats 4, two worm wheels 402 are sleeved at the tail ends of the two hexagonal rotating shafts 401, and the two worms 103 are correspondingly meshed with the two worm wheels 402 for transmission; two sliding rings 403 are slidably mounted on the two hexagonal rotating shafts 401 through spring pushing, two L-shaped clamping rods 404 are symmetrically welded on the two sliding rings 403, and two positioning sleeves 405 with square structures are symmetrically welded on the top ends of the vertical baffles of the two mounting seats 4; a vertical support force transmission shaft 301 is welded on the middle section of the cross support part of the positioning frame 3, a connecting rod 302 is rotatably connected on the top end section of the vertical support force transmission shaft 301, and the head end of the connecting rod 302 is rotatably provided with a sliding shaft 303 of a vertical support in a penetrating way; a transverse short shaft 107 is welded on the right half section of the cross-brace connecting rod 105, a sliding shaft 303 is correspondingly in sliding fit with the transverse short shaft 107, the positioning frame 3, the connecting rod 302, the vertical-brace force transmission shaft 301 and the sliding shaft 303 are connected together to form a crank-slider mechanism, and the positioning frame 3 can be driven to be drawn and inserted back and forth through the left-right sliding shaft 303 of the crank-slider mechanism to loosen and loosen the treading frame 201.

Wherein, the head end of longitudinal picture peg all is the structure of dissecting about the locating frame 3, and steps on the stull connecting axle of pressing frame 201 bottom and the locating frame 3 about the head end inclined plane of longitudinal picture peg to lean on the contact, the locating frame 3 can be positioned the state of pushing down with stepping on the grafting of pressing frame 201, makes two mount pads 4 keep turning down the user state who switches the welding seam.

Horizontal parts of the four L-shaped clamping rods 404 are in penetrating sliding fit with the four positioning sleeves 405, top end surfaces of two metal material blocks to be welded are in abutting contact with the four L-shaped clamping rods 404, and when the four L-shaped clamping rods 404 are protruded in a sliding mode, the two metal material blocks to be welded can be inserted, blocked and limited in the two mounting seats 4, and the two metal material blocks can be spliced and combined together for welding.

Two small-diameter gears are sleeved at the rear ends of two worms 103, two F-shaped racks 2 are correspondingly in meshing transmission with the two small-diameter gears, the two worm wheels 402 and the two mounting seats 4 can be meshed to drive the two worm wheels 103 and the two mounting seats 4 to rotate back and forth to perform rotation switching on four welding seams between two metal material blocks, and omnibearing welding on the four welding seams is facilitated.

The two racks 5 far away from the transmission gear 106 are respectively welded with a vertical supporting rod at a half section, the top ends of the two vertical supporting rods are respectively welded with a force transmission ring 502, the two force transmission rings 502 are rotatably sleeved with two sliding rings 403, one end of the left rack 5 close to the transmission gear 106 is welded with a top block 501, the top block 501 slides leftwards to be abutted to and contacted with the sliding shaft 303, when the welding is completed, the two mounting seats 4 are in a use state of being opened and turned downwards, at the moment, the four L-shaped clamping rods 404 are pulled out to enable the two metal material blocks welded together to be directly unloaded downwards by means of gravity, through the transmission gear 106, the racks 5 on the right finger pushing sliding side can be meshed to drive the two racks 5 on the right finger pushing sliding side to continuously slide leftwards and the two racks 5, the two force transmission rings 502 and the four L-shaped clamping rods 404 slide outwards in an opposite direction to complete the unloading operation, when the two metal material blocks on the right finger pushing side continuously slide rightwards can be meshed to drive the left racks 5 on the left side to continuously slide and contact with the sliding shaft 303 to drive the sliding shaft to push the sliding shaft 303 to move leftwards, the sliding frame 3 to control the two positioning frames to be pushed, and the six positioning frames to be pulled out, and the two positioning frames 102, and the two vertical support seats can be loosened to be conveniently reset manually, and reset, and the two manual reset seats can be reset, and the two manual mounting seats after the manual operation is completed, and the two manual operation is convenient to complete the two manual operation, and the two steering seats 4, and the two positioning seats 4 can be reset, and the manual operation of the steering seats.

The specific use mode and function of the embodiment are as follows: when the four L-shaped clamping rods 404 are protruded in a sliding manner, two metal material blocks to be welded can be inserted and limited in the two mounting seats 4, the two metal material blocks are spliced and combined together for welding, the two F-shaped racks 2 can be driven to move downwards by foot-operated force through the treading frame 201, the two F-shaped racks 2 can be driven to slide upwards and reset through the pushing of springs on the six-edge vertical supporting shafts 102, the two F-shaped racks 2 can be driven to slide upwards through the pushing of the springs, the two worm wheels 402 and the two mounting seats 4 can be driven to rotate in a reciprocating manner through the meshing of the front worm 103 and the back worm 103, the four welding seams between the two metal material blocks are switched in a rotating manner, all-round welding is convenient to be carried out on the four welding seams, referring to FIG. 1, when the four L-shaped clamping rods 404 rotate upwards, the welding seams at the top end and the welding seams at the front side are switched and when the four L-shaped clamping rods 404 rotate downwards, and the remaining two welding seams are switched at the top end and at the front side to be welded;

the positioning frame 3 can insert and position the treading frame 201 in a downward pressing state, so that two mounting bases 4 are kept in a downward turning use state for switching welding seams, the positioning frame 3, the connecting rod 302, the vertical support force transmission shaft 301 and the sliding shaft 303 are connected together to form a crank sliding block mechanism, the left and right sliding shaft 303 of the mechanism can drive the positioning frame 3 to be drawn and inserted back and forth to loosen the treading frame 201, when welding is completed, the two mounting bases 4 are in an open downward turning use state, at the moment, the four L-shaped clamping rods 404 are drawn and removed, so that two metal material blocks welded together can be directly discharged downwards by means of gravity, and through the transmission gear 106, the racks 5 on the right side of the right finger sliding movement can be engaged to drive the two racks 5 on the left side and the two force transmission rings 502 and the four L-shaped clamping rods 404 to be drawn and removed outwards in a sliding manner, so that discharging operation is completed, and when the two metal material blocks on the right side are discharged and can be engaged to drive the racks 5 on the right side to continuously slide left side and contact with the sliding shaft 303 to drive the sliding shaft 303 to move left side and move left side, so as to control the two positioning frames 3 to be drawn and removed in a linkage manner.

The above are exemplary embodiments of the invention only, and are not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (10)

1. A welding apparatus for use in the production of metallic materials, comprising: the welding fixture comprises a base (1), wherein the base (1) is of a rectangular structure, two vertical support struts (101) are symmetrically welded on the middle sections of left and right side rods of the base (1), two mounting rings are symmetrically welded on the top end sections of the two vertical support struts (101), two mounting seats (4) are symmetrically and rotatably mounted on the two mounting rings, and the two mounting seats (4) are used for clamping two metal material blocks to be welded; two F-shaped supporting rods are symmetrically welded on the top end sections of the two vertical supporting rods (101), and two worms (103) are symmetrically and rotatably mounted on the four F-shaped supporting rods; two L-shaped positioning shafts (104) are welded on the rear side stay bar of the base (1) in a bilateral symmetry manner, and a U-shaped positioning frame (3) is slidably arranged on the two L-shaped positioning shafts (104) through a spring; a cross brace connecting rod (105) is welded on the middle section of the two vertical brace supporting rods (101), and a transfer gear (106) is rotatably mounted on the middle section of the cross brace connecting rod (105); two racks (5) are arranged on the middle sections of the two vertical supporting struts (101) in a vertically spaced, left-right opposite penetrating and sliding mode, and the two racks (5) are in meshing transmission with the transmission gear (106); the positions, close to two vertical supporting rods (101), of left and right side rods of the base (1) are symmetrically welded to two six-edge vertical supporting shafts (102), two F-shaped racks (2) are symmetrically and slidably mounted on the two six-edge vertical supporting shafts (102), and a U-shaped stepping frame (201) is hung at the bottom of each F-shaped rack (2); one end of the right rack (5) close to the transmission gear (106) is welded with a finger push plate.

2. A welding apparatus for use in the production of metallic materials as defined in claim 1, wherein: the welding has a department to prop up dowel shaft (301) on the interlude of locating frame (3) stull part, and it is connected with a connecting rod (302) to rotate on the top end section of dowel shaft (301) to prop up, and the head end of connecting rod (302) runs through to rotate and installs sliding shaft (303) of a vertical braces.

3. A welding apparatus for use in the production of metallic materials as defined in claim 1, wherein: a transverse short shaft (107) is welded on the right half section of the cross-brace connecting rod (105), and the sliding shaft (303) is correspondingly in sliding fit with the transverse short shaft (107).

4. A welding apparatus for use in the production of metallic materials as defined in claim 1, wherein: the head end of longitudinal insertion plate all is the structure of dissecting about posting (3), and steps on the stull connecting axle of pressing frame (201) bottom and the head end inclined plane of longitudinal insertion plate supports to lean on the contact about posting (3).

5. A welding apparatus for use in the production of metallic materials as defined in claim 1, wherein: the mounting seat (4) is integrally of an L-shaped structure, and the mounting seat (4) is composed of two L-shaped clamping plates which are symmetrical front and back at the bottom and vertical baffles welded at the tail ends of the two L-shaped clamping plates.

6. A welding apparatus for use in the production of metallic materials as defined in claim 1, wherein: two hexagonal rotating shafts (401) are oppositely welded and supported at the centers of the vertical baffles of the two mounting seats (4), two worm wheels (402) are sleeved at the tail ends of the two hexagonal rotating shafts (401), and the two worms (103) are correspondingly meshed with the two worm wheels (402) for transmission.

7. A welding apparatus for use in the production of metallic materials as defined in claim 6, wherein: two sliding rings (403) are slidably mounted on the six-edge rotating shaft (401) through spring pushing, two L-shaped clamping rods (404) are symmetrically welded on the two sliding rings (403), and positioning sleeves (405) with two prescription-shaped structures are symmetrically welded on the top ends of the vertical baffles of the two mounting seats (4).

8. A welding apparatus for use in the production of metallic materials as defined in claim 7, wherein: horizontal parts of the L-shaped clamping rods (404) at four positions are in penetrating sliding fit with the positioning sleeves (405) at four positions, and top end surfaces of two metal material blocks to be welded are in abutting contact with the L-shaped clamping rods (404) at four positions.

9. A welding apparatus for use in the production of metallic materials as defined in claim 1, wherein: two small-diameter gears are sleeved at the rear ends of the two worms (103), and two F-shaped racks (2) are correspondingly meshed with the two small-diameter gears for transmission.

10. A welding apparatus for use in the production of metallic materials as defined in claim 1, wherein: two vertical support rods are welded on half sections, far away from the transmission gear (106), of the racks (5), force transmission rings (502) are welded at the top ends of the two vertical support rods, the two force transmission rings (502) and the two sliding rings (403) are rotatably sleeved together, a top block (501) is welded at one end, close to the transmission gear (106), of the rack (5) on the left side, and the top block (501) slides leftwards and is in abutting contact with the sliding shaft (303).

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