CN212761834U - T-shaped section welding production equipment - Google Patents

Abstract

The utility model discloses a T section bar welding production facility, include: the tail end of the material conveying line is provided with a first limiting mechanism, and the first limiting mechanism is used for performing primary limiting on the material; the material processing table is sequentially provided with a first positioning clamp, a welding mechanism and a second positioning clamp from right to left, a transmission mechanism for transmitting materials is arranged between the first positioning clamp and the second positioning clamp on the material processing table, the first positioning clamp and the first limiting mechanism are arranged close to each other, the welding mechanism is used for welding the materials, the welding mechanisms are arranged on two sides of the transmission mechanism, and the two welding mechanisms are arranged oppositely; finished product transfer chain, finished product transfer chain locate one side of material processing platform and be close to the setting mutually with first positioning fixture, through such mode, make T section bar homoenergetic obtain effectual spacing in whole welding process, make the T section bar accuracy of processing out reach anticipated effect, user experience feels splendid.

Description

T-shaped section welding production equipment

Technical Field

The utility model relates to a T section bar welding technology field especially relates to a T section bar welding production facility.

Background

With the increasing level of modern industrial production, more and more technologies are applied to the production of T-shaped sections, and although these production equipments greatly facilitate the daily production of T-shaped sections, there are still many defects, such as: the equipment structure is unreasonable in arrangement, particularly in the process of fixing the T-shaped section, the horizontal section and the vertical section which form the T-shaped section cannot be well limited and fixed, so that the T-shaped section machined after the T-shaped section deviates, the accuracy cannot reach the expected standard, the T-shaped section cannot be used and directly treated as a waste product, materials are greatly wasted, in addition, some equipment cannot even change the positioning arrangement of the positioning clamp on the T-shaped section according to the size of the T-shaped section produced actually, and the positioning clamp cannot flexibly adjust the T-shaped sections with different sizes; in addition, some production equipment has complex structure, unclear structural hierarchy and unreasonable overall layout, and the later maintenance of the equipment is seriously influenced, so that the maintenance cost of the equipment is increased.

Therefore, a solution is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a T section bar welding production facility, it is not enough to effectively solve the existence among the background art, makes the T section bar homoenergetic obtain effectual spacingly in whole welding process, makes the T section bar accuracy of processing out reach anticipated effect, and user experience feels splendid.

In order to achieve the above purpose, the technical scheme of the utility model has:

a T-shaped section welding production device comprises: the material conveying line is used for conveying materials forming the T-shaped section, a first limiting mechanism is arranged at the tail end of the material conveying line, and the first limiting mechanism is used for performing primary limiting on the materials; the material processing table is provided with a first positioning fixture, a welding mechanism and a second positioning fixture in sequence from right to left, a transmission mechanism for transmitting materials is arranged between the first positioning fixture and the second positioning fixture on the material processing table, the first positioning fixture and the first limiting mechanism are arranged close to each other, the first positioning fixture is used for further limiting the materials and transmitting the limited materials to the transmission mechanism, the welding mechanism is used for welding the materials forming the T-shaped section, the welding mechanisms are arranged on two sides of the transmission mechanism and are arranged oppositely, the second positioning fixture is used for limiting the welded materials and transmitting the welded materials to the next working procedure; the finished product transfer chain, the finished product transfer chain locate one side of material processing platform and with first positioning fixture is close to the setting mutually, the finished product transfer chain is used for the transmission of the good material of welding.

Furthermore, the first positioning fixture comprises a first base plate, two side plates arranged on the first base plate and a first motor, wherein the two side plates are arranged oppositely, and at least two first transmission wheels are rotatably arranged between the two side plates along the horizontal direction; the first transmission wheel top still is equipped with two at least spacing wheels, spacing wheel rotates to be installed two between the curb plate, be equipped with the annular groove on the spacing wheel, spacing wheel with through setting up gear transmission connection each other between the first transmission wheel, first motor with transmission connection between the gear, thereby first motor is through the drive the gear rotates and drives first transmission wheel and spacing wheel rotate.

Furthermore, an adjusting cylinder is further arranged on one side of the first base plate, a jacking plate is movably mounted on the adjusting cylinder and used for jacking materials to convey the materials to the first transmission wheel.

Furthermore, the conveying mechanism comprises a plurality of guide tables and conveying rollers which are sequentially arranged, each guide table comprises a first base table, a guide rail arranged on the first base table and guide wheels slidably mounted on the guide rail, two guide wheels are arranged oppositely, an area for conducting materials to move is formed by matching the two guide wheels, and the conveying rollers are mounted between every two adjacent guide tables; wherein, still be equipped with middle transmission roller on the position of being close to welding mechanism.

Further, welding mechanism includes the support, sets up leading pole, first slide, second slide, first welding machine and second welding machine on the support, first slide passes through leading pole slidable mounting is in on the support, still be provided with vice guide arm on the first slide, slidable mounting is gone up to vice guide arm has the second slide, from top to bottom has set gradually on the second slide first welding machine with the second welding machine.

Furthermore, a second screw rod used for adjusting the first sliding plate to slide up and down is further arranged at the position, where the first sliding plate is arranged on the support, the second screw rod is in transmission connection with the first sliding plate, and a second hand wheel used for driving the second screw rod to move is further arranged at the upper end of the second screw rod.

Furthermore, a third screw rod for adjusting the left-right sliding of the second sliding plate is further arranged at the position where the second sliding plate is installed on the first sliding plate, the third screw rod is in transmission connection with the second sliding plate, and a third hand wheel for driving the third screw rod to move is further arranged at the upper end of the third screw rod.

Further, the finished product transfer chain includes the chassis, second stop gear, third positioning fixture, first conducting mechanism and second conducting mechanism have set gradually by right side to a left side on the chassis, second stop gear and third positioning fixture all are used for fixing a position and conveying the T section bar to the T section bar that welding has been accomplished on the first conducting mechanism, first conducting mechanism includes two bases just relatively set up between the base, locate second conduction wheel and a plurality of activities on the base set up two auxiliary rod between the base, two second conduction wheel on the base sets up crisscross each other, second conduction wheel with cooperate the completion between the auxiliary rod to the transport of T section bar.

Further, finished product transfer chain still includes finished product storage frame.

Further, still include the dustcoat, the dustcoat sets up on the material processing platform.

The utility model discloses a T section bar welding production facility, its beneficial effect is: 1. the T-shaped section can be effectively limited in the whole welding process through the mutual matching of the first limiting mechanism, the first positioning clamp, the transmission mechanism and other parts, so that the accuracy of the processed T-shaped section can reach the expected effect, and the user experience is excellent; 2. under the action of a first guide wheel and a limiting wheel on a first positioning fixture, the T-shaped section transmitted by a material conveying line can be fully limited before entering a welding process, so that the position of the T-shaped section meets the requirements of a subsequent welding process, and then the T-shaped section reaches the position of a welding mechanism through a transmission mechanism to realize welding; 3. after welding is finished, the T-shaped section is conveyed to a finished product conveying line through a second positioning fixture, the T-shaped section conveyed to the finished product conveying line can be conveyed on a pre-planned route under the action of the second positioning fixture, and the conveying smoothness after the T-shaped section is welded is effectively improved; 4. the whole equipment is provided with a large number of transmission wheels, sliding related structures, guide rods and the like, so that the transmission structures are beneficial to transmission, the whole conveying process of the T-shaped material is very smooth, the phenomenon of blocking is avoided, the whole machining efficiency is promoted, and the user experience is excellent.

Drawings

FIG. 1 is an overall structure diagram of a T-shaped section welding production device;

FIG. 2 is a block diagram of a material transfer line;

FIG. 3 is a view of the first stop mechanism;

FIG. 4 is a structural view of an internal part of a T-shaped section welding production device;

FIG. 5 is a view of the first positioning jig (from perspective a);

FIG. 6 is a view of the first positioning jig structure (from perspective b);

FIG. 7 is a schematic view of the structure at A in FIG. 5;

FIG. 8 is a top view of the transfer mechanism configuration;

FIG. 9 is a side view of the transfer mechanism configuration;

FIG. 10 is a view of the welding mechanism;

FIG. 11 is a partial block diagram of the product conveyor line;

FIG. 12 is an installation view between the second stopper mechanism and the auxiliary feed mechanism;

FIG. 13 is a schematic view of the structure of FIG. 11 at B;

fig. 14 is a partial structural view of a T-shaped bar.

The reference numbers in the figures illustrate:

1. a T-shaped section;

101. a horizontal segment; 102. a vertical section;

2. a material conveying line;

201. a first limit mechanism; 211. a first sliding table; 221. a second sliding table; 231. a backup plate; 241. a top rod; 251. an inclined plate; 261. a bottom roller;

202. a first frame; 203. a first conveying roller; 204. a material storage table;

3. a material processing table;

301. a first positioning jig; 311. a first substrate; 321. a side plate; 331. a first motor; 341. a first pulley; 342. a first rotating shaft; 343. a second rotating shaft; 344. a first slider; 345. a first lead screw; 346. a first hand wheel; 347. a first gear; 348. a second gear; 349. an intermediate gear;

302. a welding mechanism; 312. a support; 3121. a third sliding table; 3123. a fourth screw rod; 3124. a fourth hand wheel; 322. a main leader; 332. a first slide plate; 352. a second slide plate; 362. a first welder; 372. a second welder; 382. a sub guide bar; 392. a second lead screw; 3921. a second hand wheel; 3112. a third screw rod; 3122. a third hand wheel; 351. a limiting wheel; 361. an annular groove; 371. an adjusting cylinder; 381. a jacking plate;

303. a second positioning jig;

304. a transport mechanism; 314. a guide table; 315. a first base station; 316. a guide rail; 317. a guide wheel; 318. an intermediate transfer roller; 324. a transfer roller;

4. a finished product conveying line; 41. a chassis;

42. a second limiting mechanism; 421. a second base station; 422. a guide roller; 423. a fifth screw rod;

43. a third positioning jig;

44. a first conducting mechanism; 441. a base; 442. a transmission wheel; 443. an auxiliary lever;

45. a second conducting mechanism;

46. an auxiliary conveying mechanism; 461. a vertical plate; 462. a third pulley; 463. a third rotating shaft; 464. a second slider; 465. a sixth lead screw; 466. a fifth hand wheel;

5. a finished product storage rack; 6. a housing; 7. and a fourth positioning fixture.

Detailed Description

The utility model discloses a T section bar welding production facility is explained with the attached drawing.

As a preferred embodiment of the present invention:

referring to fig. 1-14, a T-section welding production apparatus, the T-section 1 generally consists of a horizontal section 101 material and a vertical section 102 material, and comprises: the material conveying line 2 is used for conveying materials forming the T-shaped section 1, a first limiting mechanism 201 is arranged at the tail end of the material conveying line 2, and the first limiting mechanism 201 is used for performing primary limiting on the materials; a material processing table 3, wherein a first positioning clamp 301, a welding mechanism 302 and a second positioning clamp 303 are sequentially arranged on the material processing table 3 from right to left, a conveying mechanism 304 for conveying the materials is arranged between the first positioning clamp 301 and the second positioning clamp 303 on the material processing table 3, the first positioning clamp 301 is arranged close to the first limiting mechanism 201, the first positioning clamp 301 is used for further limiting the material and transmitting the limited material to the transmission mechanism 304, the welding mechanism 302 is used for welding materials forming the T-shaped section 1, the welding mechanism 302 is arranged on both sides of the conveying mechanism 304, the two welding mechanisms 302 are arranged oppositely, and the second positioning fixture 303 is used for limiting the position of the welded material and transmitting the welded material to the next working procedure; finished product transfer chain 4, finished product transfer chain 4 locate one side of material processing platform 3 and with first positioning fixture 301 is close to the setting mutually, finished product transfer chain 4 is used for the transmission of the good material of welding.

Referring to fig. 2 to 7, the material conveying line 2 includes a first frame 202, a plurality of first conveying rollers 203 are disposed on the first frame 202, the first conveying rollers 203 are used for conveying the T-shaped material 1, a material storage table 204 is further disposed on the first frame 202 on one side of the first conveying rollers 203, the material storage table 204 is used for storing materials, and the material storage table 204 is provided with two layers.

Wherein, the end of first frame 202 is installed on the one side that material processing platform 3 is close to mutually first stop gear 201, first stop gear 201 includes first slip table 211 and second slip table 221 of slidable mounting on first frame 202, sets up between first slip table 211 and the second slip table 221 relatively, and all be equipped with on first slip table 211 and the second slip table 221 and support the board 231, two support and set up relatively between the board 231, and two support and form an area that is used for spacing T section bar 1 between the board 231, this area is mainly used for the spacing of horizontal segment 101, make in T section bar 1 can be sent into second positioning fixture 303 by accurate.

Then, a plurality of ejector rods 241 horizontally arranged penetrate through the abutting plate 231, and after the T-shaped material 1 enters the above-mentioned area, the ejector rods 241 on the two sides can extrude the vertical section 102 on the new wood T, so that the vertical section 102 is well positioned on the horizontal section 101. The ejector bar 241 is adjustable here, and can be adjusted correspondingly depending on the size of the actual T-profile 1.

Preferably, in order to make the movement of the T-shaped profile 1 smoother, an inclined plate 251 for matching the T-shaped profile 1 to move into the first limiting mechanism 201 is further provided on one side of the abutting plate 231, and the inclined plate 251 is inclined to the outside.

Preferably, a bottom roller 261 is further disposed between the two abutting plates 231, and the bottom roller 261 is used for matching the conveying of the T-shaped section 1, so that the whole conveying process is smoother.

Referring to fig. 3 to 7, the first positioning fixture 301 includes a first base plate 311, two side plates 321 disposed on the first base plate 311, and a first motor 331, where the two side plates 321 are disposed oppositely, and at least two first transmission wheels 341 are rotatably mounted between the two side plates 321 along a horizontal direction; the first transmission wheel 341 is further provided with at least two limiting wheels 351, the limiting wheels 351 are rotatably mounted between the two side plates 321, each limiting wheel 351 is provided with an annular groove 361, the limiting wheels 351 and the first transmission wheel 341 are mutually connected through a gear, the first motor 331 is connected with the gear in a transmission manner, and the first motor 331 drives the gear to rotate so as to drive the first transmission wheel 341 and the limiting wheels 351 to rotate.

Preferably, an adjusting cylinder 371 is further disposed on one side of the first base plate 311, a lifting plate 381 is movably mounted on the adjusting cylinder 371, and the lifting plate 381 is used for lifting a material to convey the material to the first guide pulley 341.

Preferably, the first driving wheel 341 is rotatably mounted on the two side plates 321 by providing a first rotating shaft 342; the limiting wheel 351 is rotatably mounted on the two side plates 321 by a second rotating shaft 343.

Preferably, the first sliding blocks 344 are disposed at two ends of the second rotating shaft 343 on the side plate 321, the first sliding blocks 344 are embedded in the side plate 321, the first sliding blocks 344 can move up and down in the side plate 321, the first sliding blocks 344 are provided with vertically disposed first lead screws 345, the first lead screws 345 are used for driving the first sliding blocks 344 to move up and down, so as to flexibly adjust the positions of the first sliding blocks 344, the top of the first lead screws 345 is provided with first hand wheels 346, and the first hand wheels 346 are used for conveniently adjusting the first lead screws 345.

After the T-shaped material 1 comes out along the material conveying line 2, under the action of the lifting plate 381, the horizontal section 101 on the T-shaped material 1 can be stably conveyed to the first transmission wheel 341, at this time, the first sliding block 344 is driven to move in the up-down direction by adjusting the first screw rod 345, then the annular groove 361 on the first sliding block 344 can be mutually clamped with the vertical section 102 of the T-shaped material 1, so that the limit on the vertical section 102 is reached, and finally, the first transmission wheel 341 acts under the action of the first motor 331 to convey the T-shaped material 1 into the transmission mechanism 304.

Since the limiting wheel 351 is rotatably mounted on the two side plates 321 by providing a second rotating shaft 343, that is, the position of the limiting wheel 351 in the left-right direction can be adjusted by adjusting the position of the second rotating shaft 343.

Preferably, the gears include a first gear 347 mounted on the first rotating shaft 342 and a second gear 348 mounted on the second rotating shaft 343, the first gears 347 are mutually connected by an intermediate gear 349, the first gear 347 and the second gear 348 are mutually connected, and the first motor 331 is in transmission connection with one of the first gears 347.

Referring to fig. 1, 4, 8-9, the conveying mechanism 304 includes a plurality of guide platforms 314 and conveying rollers 324 arranged in sequence, where the guide platforms 314 include a first base platform 315, a guide rail 316 disposed on the first base platform 315, and a guide wheel 317 slidably mounted on the guide rail 316, the guide wheel 317 is provided with two guide wheels 317, the two guide wheels 317 are disposed oppositely, an area for conducting the movement of the material is formed by matching between the two guide wheels 317, the conveying rollers 324 are disposed between two adjacent guide platforms 314, and the conveying rollers 324 are disposed on the area for matching the conduction of the material.

Preferably, in order to make the whole T-shaped profile 1 be more smoothly transported, an intermediate transport roller 318 is further provided at a position close to the welding mechanism 302, and the structure of the intermediate transport roller 318 is the same as that of the transport roller 324.

The area for conducting the material to move is provided with the transmission roller 324, that is, the bottom of the T-shaped profile 1 is attached to the transmission roller 324 to match the whole conveying process, then the two ends of the T-shaped profile 1 conduct under the action of the guide wheels 317, wherein the transmission roller 324 and the guide wheels 317 both serve as a guide function, so that the T-shaped profile 1 does not shift before being conveyed to the welding mechanism 302.

Referring to fig. 4 and 10, the welding mechanism 302 includes a bracket 312, a main guide rod 322 disposed on the bracket 312, a first sliding plate 332, a second sliding plate 352, a first welding machine 362, and a second welding machine 372, wherein the first sliding plate 332 is slidably mounted on the bracket 312 through the main guide rod 322, the first sliding plate 332 is further provided with a sub-guide rod 382, the second sliding plate 352 is slidably mounted on the sub-guide rod 382, and the second sliding plate 352 is sequentially provided with the first welding machine 362 and the second welding machine 372 from top to bottom.

Preferably, a second screw rod 392 for adjusting the up-and-down sliding of the first sliding plate 332 is further arranged at the position of the bracket 312 where the first sliding plate 332 is installed, the second screw rod 392 is in transmission connection with the first sliding plate 332, and a second hand wheel 3291 for driving the second screw rod 392 to move is further arranged at the upper end of the second screw rod 392.

Through the matching between the second screw 392 and the first sliding plate 332, the second sliding plate 352 mounted on the first sliding plate 332 can move up and down, that is, the first welding machine 362 and the second welding machine 372 mounted on the second sliding plate 352 can move up and down, so that the adjustment of the welding machines is more flexible, and the welding machines can be applied to the processing of T-shaped materials 1 with different sizes.

Preferably, a third screw 3112 for adjusting the left-right sliding of the second sliding plate 352 is further disposed at a position where the second sliding plate 352 is mounted on the first sliding plate 332, the third screw 3112 is in transmission connection with the second sliding plate 352, and a third hand wheel 3122 for driving the third screw 3112 is further disposed at an upper end of the third screw 3112.

Through the cooperation between the third screw 3112 and the second sliding plate 352, the first welder 362 and the second welder 372 can move in the moving direction of the second sliding plate 352, and the adjustment flexibility of welding is further improved.

Preferably, a third sliding table 3121 is further disposed at the bottom of the support 312, the third sliding table 3121 is slidably disposed on the material processing table 3, and the entire welding mechanism 302 can move in the horizontal direction by the arrangement of the third sliding table 3121.

Preferably, a fourth screw 3123 for driving the third sliding table 3121 to move is further provided at the third sliding table 3121, and a fourth hand wheel 3124 is further provided on the fourth screw 3123.

Wherein, the welding machine (first welding machine 362 or second welding machine 372, this depends on the specific size of T section bar 1) of participation in the welding is selected earlier, then the position of first welding machine 362 or second welding machine 372 has been adjusted well in advance, when T section bar 1 is carried to between two welding machines, the welding machine carries out corresponding welding to T section bar 1, through setting up the welding machine of co-altitude not, make this equipment can match in the middle of the welding of the T section bar 1 of co-ordinate-size, with the improvement that does benefit to T section bar 1 welding efficiency, promote holistic work efficiency.

Further, when the welding is completed, the T-bar 1 is transferred to the second positioning jig 303.

In this embodiment, the structure of the second positioning fixture 303 is the same as that of the first positioning fixture 301, and therefore, the description thereof is not repeated.

Referring to fig. 11 to 13, after the T-shaped material 1 is welded, the T-shaped material 1 is conveyed to the finished product conveying line 4 through the second positioning fixture 303, the finished product conveying line 4 includes a base frame 41, a second limiting mechanism 42, a third positioning fixture 43, a first conducting mechanism 44 and a second conducting mechanism 45 are sequentially arranged on the base frame 41 from right to left, and the second limiting mechanism 42 and the third positioning fixture 43 are both used for positioning the welded T-shaped material 1 and conveying the T-shaped material 1 to the first conducting mechanism 44.

After the T-shaped material 1 comes out from the second positioning fixture 303, it will enter the second limiting mechanism 42 first, the second limiting mechanism 42 includes a second base 421 and a guide roller 422 disposed on the second base 421, the second base 421 is provided with two, and two of the second base 421 are disposed oppositely, the second base 421 is slidably mounted on the bottom frame 41, and a first channel for transmitting the T-shaped material 1 is formed between the two guide rollers 422.

Preferably, a fifth screw 423 for driving the second base 421 to move is further disposed on the second base 421, and the fifth screw 423 controls the distance between the two guide rollers 422 by moving the position of the second base 421, so as to match the processing of T-shaped profiles 1 with different sizes.

Preferably, an auxiliary conveying mechanism 46 is further disposed between the second limiting mechanism 42 and the third positioning fixture 43, the auxiliary conveying mechanism 46 includes a vertical plate 461 and three third guide wheels 462, the three third guide wheels 462 are arranged in a triangular shape, and a second channel matched with the first channel is formed between the three third guide wheels 462, and the second channel is matched with the first channel for conveying the T-shaped profile 1.

The three third guide wheels 462 are rotatably mounted on a vertical plate 461 through a third rotating shaft 463, a second slider 464 is disposed at the uppermost third rotating shaft 463, and the second slider 464 can slide in the vertical plate 461 to drive the third rotating shaft 463 to move up and down, so that the uppermost third guide wheel 462 can move up and down; in addition, a sixth screw 465 is further arranged at the position of the second slider 464, the sixth screw 465 is used for driving the second slider 464 to move up and down, a fifth hand wheel 466 is further arranged on the sixth screw 465, and the fifth hand wheel 466 is convenient for a user to operate the sixth screw 465.

It should be noted that, in order to match with the vertical section 102 of the T-shaped profile 1 for conveying, the structure of the third guiding wheel 462 located at the top is the same as that of the limiting wheel 351, and the third guiding wheel also has an annular groove 361, and the annular groove 361 and the vertical section 102 of the T-shaped profile 1 are clamped with each other, so as to limit the vertical section 102.

Then, the T-shaped material 1 coming out through the auxiliary conveying mechanism 46 enters the third positioning fixture 43, and the structure of the third positioning fixture 43 is the same as that of the first positioning fixture 301, so that the detailed description thereof is omitted.

Then, the T-shaped bar 1 coming out from the third positioning fixture 43 is sent to the first conducting mechanism 44, the first conducting mechanism 44 includes two bases 441, the bases 441 are oppositely disposed, second conducting wheels 442 disposed on the bases 441, and a plurality of auxiliary rods 443 movably disposed between the two bases 441, the second conducting wheels 442 on the two bases 441 are disposed in a staggered manner, the second conducting wheels 442 and the auxiliary rods 443 cooperate to complete the transportation of the T-shaped bar 1, the second conducting wheels 442 on both sides mainly guide the horizontal section 101 of the T-shaped bar 1 to prevent the deviation thereof, and then the auxiliary rods 443 on the bottom mainly guide the vertical section of the T-shaped bar 1 to cooperate to complete the transportation of the T-shaped bar 1.

The second conveying means 45 is mainly composed of a plurality of auxiliary conveying means 46 arranged in sequence, and also has the function of guiding the T-shaped profile 1.

Referring to fig. 1, 11-13, the finished product conveying line 4 further includes a finished product storage rack 5, wherein a fourth positioning clamp 7 is further disposed on the left side of the second conveying mechanism 45, the T-shaped profile 1 reaches the fourth positioning clamp 7 after being conveyed out by the second conveying mechanism 45, and then the T-shaped profile 1 is conveyed to the finished product storage rack 5 by the fourth positioning clamp 7 to complete storage of the welded T-shaped profile 1. Here, the structure of the fourth positioning jig 7 is the same as that of the first positioning jig 301, and therefore, the description thereof is omitted.

In order to ensure the safety of the user when operating the equipment, the equipment further comprises a housing 6, and the housing 6 is arranged on the material processing table 3.

The utility model discloses a 1 welding production facility of T section bar, its beneficial effect is: 1. through the mutual matching among the first limiting mechanism 201, the first positioning clamp 301, the transmission mechanism 304 and other components, the T-shaped section 1 can be effectively limited in the whole welding process, the accuracy of the processed T-shaped section 1 can reach the expected effect, and the user experience is excellent; 2. under the action of the first transmission wheel 341 and the limiting wheel 351 on the first positioning fixture 301, the T-shaped section 1 transmitted by the material conveying line 2 can be fully limited before entering the welding process, so that the position of the T-shaped section 1 meets the requirements of the subsequent welding process, and then the T-shaped section 1 reaches the position of the welding mechanism 302 through the transmission mechanism 304 to realize welding; 3. after welding is completed, the T-shaped material is conveyed to the finished product conveying line 4 through the second positioning fixture 303, the T-shaped material 1 conveyed to the finished product conveying line 4 can be conveyed on a pre-planned route under the action of the second positioning fixture 303, and the conveying smoothness of the T-shaped material 1 after welding is completed is effectively improved; 4. the whole equipment is provided with a large number of transmission wheels, sliding related structures, guide rods and the like, so that the transmission structures are beneficial to transmission, the whole conveying process of the T-shaped material 1 is very smooth, the phenomenon of blocking is avoided, the whole machining efficiency is promoted, and the user experience is excellent.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. A T section bar welding production facility which characterized in that includes:

the material conveying line is used for conveying materials forming the T-shaped section, a first limiting mechanism is arranged at the tail end of the material conveying line, and the first limiting mechanism is used for performing primary limiting on the materials;

the material processing table is provided with a first positioning fixture, a welding mechanism and a second positioning fixture in sequence from right to left, a transmission mechanism for transmitting materials is arranged between the first positioning fixture and the second positioning fixture on the material processing table, the first positioning fixture and the first limiting mechanism are arranged close to each other, the first positioning fixture is used for further limiting the materials and transmitting the limited materials to the transmission mechanism, the welding mechanism is used for welding the materials forming the T-shaped section, the welding mechanisms are arranged on two sides of the transmission mechanism and are arranged oppositely, the second positioning fixture is used for limiting the welded materials and transmitting the welded materials to the next working procedure;

the finished product transfer chain, the finished product transfer chain locate one side of material processing platform and with first positioning fixture is close to the setting mutually, the finished product transfer chain is used for the transmission of the good material of welding.

2. The T-shaped section welding production equipment as claimed in claim 1, wherein the first positioning fixture comprises a first base plate, two side plates arranged on the first base plate and a first motor, the two side plates are arranged oppositely, and at least two first transmission wheels are rotatably arranged between the two side plates in the horizontal direction;

the first transmission wheel top still is equipped with two at least spacing wheels, spacing wheel rotates to be installed two between the curb plate, be equipped with the annular groove on the spacing wheel, spacing wheel with through setting up gear transmission connection each other between the first transmission wheel, first motor with transmission connection between the gear, thereby first motor is through the drive the gear rotates and drives first transmission wheel and spacing wheel rotate.

3. The T-shaped material welding production equipment as claimed in claim 2, wherein an adjusting cylinder is further arranged on one side of the first base plate, a jacking plate is movably mounted on the adjusting cylinder, and the jacking plate is used for jacking materials to convey the materials to the first guide wheel.

4. The T-shaped section welding production equipment as claimed in claim 1, wherein the conveying mechanism comprises a plurality of guide tables and conveying rollers which are sequentially arranged, each guide table comprises a first base table, a guide rail arranged on the first base table and guide wheels slidably mounted on the guide rail, two guide wheels are arranged oppositely, an area for conducting materials to move is formed by matching the two guide wheels, and the conveying rollers are mounted between every two adjacent guide tables;

wherein, still be equipped with middle transmission roller on the position of being close to welding mechanism.

5. The T-shaped profile welding production device according to claim 1, wherein the welding mechanism comprises a support, a main guide rod arranged on the support, a first sliding plate, a second sliding plate, a first welding machine and a second welding machine, the first sliding plate is slidably mounted on the support through the main guide rod, an auxiliary guide rod is further arranged on the first sliding plate, the second sliding plate is slidably mounted on the auxiliary guide rod, and the first welding machine and the second welding machine are sequentially arranged on the second sliding plate from top to bottom.

6. A T-shaped profile welding production device as claimed in claim 5, wherein a second screw rod for adjusting the first sliding plate to slide up and down is further arranged at a position where the first sliding plate is mounted on the bracket, the second screw rod is in transmission connection with the first sliding plate, and a second hand wheel for driving the second screw rod to move is further arranged at the upper end of the second screw rod.

7. A T-shaped section welding production device as claimed in claim 5, wherein a third screw rod for adjusting the left-right sliding of the second sliding plate is further arranged at the position where the second sliding plate is installed on the first sliding plate, the third screw rod is in transmission connection with the second sliding plate, and a third hand wheel for driving the third screw rod to move is further arranged at the upper end of the third screw rod.

8. The T-shaped material welding production equipment as claimed in claim 1, wherein the finished product conveying line comprises a bottom frame, a second limiting mechanism, a third positioning fixture, a first transmission mechanism and a second transmission mechanism are sequentially arranged on the bottom frame from right to left, the second limiting mechanism and the third positioning fixture are used for positioning the welded T-shaped material and transmitting the T-shaped material to the first transmission mechanism, the first transmission mechanism comprises two bases, second transmission wheels are oppositely arranged between the bases and arranged on the bases, and a plurality of auxiliary rods are movably arranged between the two bases, the second transmission wheels on the two bases are arranged in a staggered mode, and the second transmission wheels and the auxiliary rods are matched with each other to complete the conveying of the T-shaped material.

9. The T-bar welding production apparatus of claim 8, wherein said product conveyor line further comprises a product storage rack.

10. The T-bar welding production apparatus of any one of claims 1-9, further comprising a housing disposed on the material processing table.

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