CN113523028A

CN113523028A - Mechanical equipment for automatic production and processing of building pipes

Info

Publication number: CN113523028A
Application number: CN202010284299.3A
Authority: CN
Inventors: 文晓斐
Original assignee: Southwest Minzu University
Current assignee: Southwest Minzu University
Priority date: 2020-04-13
Filing date: 2020-04-13
Publication date: 2021-10-22

Abstract

The invention discloses mechanical equipment for automatic production and processing of building pipes, belonging to the technical field of mechanical production and processing equipment; a mechanical device for automatic production and processing of building pipes comprises an installation base, a fixing frame, a supporting rod and an installation shell, wherein the fixing frame is fixedly connected to the upper surface of the installation base, the fixing frame is connected with a building pipe conveying and transferring mechanism, the installation base is also connected with a driving mechanism, and the driving mechanism is matched with the building pipe conveying and transferring mechanism; the supporting rod is also fixedly connected to the mounting base, the mounting shell is fixedly connected to the top end of the supporting rod, a building pipe straightening mechanism is mounted inside the mounting shell, and the building pipe straightening mechanism is also matched with the building pipe conveying and transferring mechanism; the invention effectively solves the problems that the existing manual auxiliary feeding mode is time-consuming and labor-consuming, has potential safety hazards, the structure of a straightening mechanism is simpler, the straightening function cannot be well performed, and the product quality is influenced.

Description

Mechanical equipment for automatic production and processing of building pipes

Technical Field

The invention relates to the technical field of mechanical production and processing equipment, in particular to mechanical equipment for automatic production and processing of building pipes.

Background

The pipe is a necessary material for building engineering, and commonly used materials comprise a water supply pipe, a water discharge pipe, a gas pipe, a heating pipe, an electric wire conduit, a rainwater pipe and the like; the pipe can be divided into a metal pipe, a plastic pipe, a metal and plastic composite pipe and the like according to manufacturing materials, wherein the metal pipe is bent to a certain degree due to mechanical errors of production and processing equipment in the production and processing processes of the metal pipe.

At present, mechanical equipment for automatic production and processing of building pipes on the market often realizes the feeding work of the building pipes in a manual mode when the pipes are straightened, and the mode wastes time and labor and has certain danger; in addition, the existing pipe straightening structure is simple, and cannot play a good straightening role, so that the quality of the finished pipe is influenced.

Disclosure of Invention

1. Technical problem to be solved by the invention

The invention aims to provide mechanical equipment for automatic production and processing of building pipes, which aims to solve the problems in the background technology:

the mode of artifical supplementary feeding of current design wastes time and energy, and the structure that has potential safety hazard and straightening mechanism is comparatively simple, can't play fine straightening effect, influences product quality's problem.

2. Technical scheme

In order to achieve the purpose, the invention provides the following technical scheme:

the mechanical equipment for automatic production and processing of the building pipes comprises an installation base, a fixed frame, a supporting rod and an installation shell, wherein the fixed frame is fixedly connected to the upper surface of the installation base, the fixed frame is connected with a building pipe conveying and transferring mechanism, the installation base is also connected with a driving mechanism, and the driving mechanism is matched with the building pipe conveying and transferring mechanism; the utility model discloses a construction pipe straightening machine, including bracing piece, installation casing, transport mechanism, bracing piece, installation casing, the inside mounting of installation casing has construction pipe straightening mechanism, construction pipe straightening mechanism also carries the transport mechanism phase-match with construction pipe.

Preferably, the building pipe conveying and transferring mechanism comprises a trapezoidal feeding frame and a connecting rod, the trapezoidal feeding frame is obliquely and fixedly connected to the fixed frame, the small-caliber end of the trapezoidal feeding frame is fixedly connected with the first conveying frame, and the first conveying frame is also fixedly connected with the fixed frame; connecting rod fixed connection is on the installation base, the top fixed connection of connecting rod has fixed diaphragm, fixedly connected with mounting panel on the bottom surface of fixed diaphragm, be connected with circulation transport mechanism on connecting rod and the mounting panel.

Preferably, the circulating transfer mechanism comprises a movable plate, the movable plate is connected to the connecting rod in a sliding manner, a movable groove is formed in the movable plate, a movable block is arranged in the movable groove, the movable block is movably arranged in the movable groove, and a transfer support rod is fixedly connected to the movable block; the mounting panel upper end is rotated and is connected with first gear, the mounting panel lower extreme rotates and is connected with the second gear, encircle between first gear and the second gear and be connected with first linkage chain, the movable block rotates to be connected on the section of first linkage chain.

Preferably, actuating mechanism is including mount pad, first belt pulley and second belt pulley, the bottom fixed connection of mount pad is on the installation base, the first servo motor of fixedly connected with on the top surface of mount pad, fixedly connected with connecting axle on first servo motor's the output shaft, first belt pulley and first gear fixed connection, it is connected with the second linkage belt to encircle between connecting axle and the first belt pulley, second belt pulley fixed connection is on the outstanding pole of delivery roller, it is connected with the third linkage belt to encircle between connecting axle and the second belt pulley.

Preferably, actuating mechanism is including mount pad, first belt pulley and second belt pulley, the bottom fixed connection of mount pad is on the installation base, the first servo motor of fixedly connected with on the top surface of mount pad, fixedly connected with connecting axle on first servo motor's the output shaft, first belt pulley and first gear fixed connection, it is connected with the second linkage belt to encircle between connecting axle and the first gear, second belt pulley fixed connection is on the outstanding pole of carrying idler, it is connected with the third linkage belt to encircle between connecting axle and the outstanding pole.

Preferably, the building pipe straightening mechanism comprises a second servo motor, the second servo motor is fixedly connected to the side wall surface of the installation shell, a worm is fixedly connected to an output shaft of the second servo motor and meshed with a worm wheel, the worm wheel is fixedly connected to two ends of a lower end connecting roller, the lower end connecting roller is rotatably connected to the inner side wall of the installation shell, a first straightening roller is fixedly connected to the middle position of the lower end connecting roller, a third gear is fixedly connected to two ends of the lower end connecting roller, a second linkage chain is connected to the third gear in a surrounding mode, a fourth gear is further rotatably connected to the side wall of the straightening operation box, and the fourth gear is meshed with the second linkage chain.

Preferably, the building pipe straightening mechanism further comprises a fifth gear and an upper end connecting roller, the fifth gear is fixedly connected with the fourth gear, the fifth gear is meshed with the sixth gear which is fixedly connected with the seventh gear, the seventh gear is rotationally connected with the side wall of the mounting shell, the middle position of the upper end connecting roller is fixedly connected with a second straightening roller, the two ends of the upper end connecting roller are fixedly connected with eighth gears, a third linkage chain is connected between the eighth gears and the seventh gears in a surrounding manner, the two ends of the upper end connecting roller are rotatably connected on the connecting block, the side wall of the mounting shell is provided with a mounting groove, the connecting block is slidably mounted inside the mounting groove, a spring is fixedly connected to the top surface of the connecting block, and the top end of the spring is fixedly connected to the inner top surface of the mounting groove.

3. Advantageous effects

(1) The invention is provided with a building pipe conveying and transferring mechanism, when in use, pipes needing straightening operation are conveyed to a trapezoidal feeding frame by a conveying device, the trapezoidal feeding frame has smaller and smaller width and is obliquely and fixedly arranged, so that the pipes can smoothly enter a concave arc part of a first conveying frame, then the circulating and transferring mechanism works, the first gear is driven to rotate by a driving mechanism, a second gear and a first linkage chain rotate along with the first gear when the first gear rotates, a movable block is rotationally connected with a segment on the first linkage chain, when the first linkage chain rotates, a movable plate can be driven to reciprocate up and down by the action of a movable block, the movable block can also circularly slide left and right in a movable groove on the movable plate, when the movable block moves to the first conveying frame, a transferring support rod can support the pipes on the first conveying frame, along with the motion transfer of first linkage chain to second carriage department, the transportation bracket can pass the second carriage, and the tubular product can be stayed on the second carriage, tightly enters into the installation casing and carries out tubular product aligning operation under actuating mechanism's supplementary, so circulation reciprocating motion, can realize building tubular product rapid and stable's automatic transportation, need not manual operation again, effectively solved the artifical supplementary feeding's of current design mode and wasted time and energy, there is the problem of potential safety hazard.

(2) When the driving mechanism works, the first servo motor can drive the first belt pulley to rotate through the connecting shaft and the second linkage belt, and the first belt pulley is fixedly connected to the first gear, so that the first gear and the first linkage chain can be driven to rotate to complete the circular transfer work of the pipe; meanwhile, the first servo motor can drive the second belt pulley to rotate through the connecting shaft and the third linkage belt, and the second belt pulley is fixedly connected to the protruding rod of the conveying roller, so that the conveying roller can be driven to rotate to complete conveying of the pipe from the conveying and transferring mechanism for the building pipe to the straightening mechanism for the building pipe.

(3) When the building pipe straightening mechanism is used, the second servo motor works, the worm fixedly connected to the output shaft can drive the worm wheel meshed with the worm to rotate, the worm wheel is fixedly connected to the lower end connecting roller so as to drive the lower end connecting roller to rotate, meanwhile, the lower end connecting roller is also fixedly connected with a third gear, the third gear can realize linkage between the lower end connecting rollers through a second linkage chain and can also drive a fourth gear to rotate, the fourth gear is fixedly connected with a fifth gear, the fifth gear is meshed with a sixth gear below the fifth gear so as to drive the sixth gear to rotate, the sixth gear is fixedly connected to a seventh gear, the seventh gear is rotatably connected with the side wall of the mounting box so as to drive the seventh gear to rotate, and the seventh gear can drive eighth gears at two ends of the upper end connecting roller to rotate through the third linkage chain, and then the upper end connection roller also can carry out the antiport with the lower extreme connection roller, and the both ends of upper end connection roller are rotated and are connected on the connecting block, the connecting block passes through spring sliding connection in the mounting groove, the interval between the first straightening gyro wheel on the lower extreme connection roller and the second straightening gyro wheel on the upper end connection roller is slightly less than the diameter of building tubular product, thereby when using, when building tubular product enters into between first straightening gyro wheel and the second straightening gyro wheel, can upwards extrude the upper end connection roller, because the restoring force of spring, can promote the second straightening gyro wheel to hug closely on building tubular product, thereby can play better straightening effect, utilize above-mentioned design, the structure of effectively having solved current design straightening mechanism is comparatively simple, can't play fine straightening effect, influence the problem of product quality.

Drawings

FIG. 1 is a schematic structural diagram of a mechanical apparatus for automatic production and processing of building pipes according to the present invention;

FIG. 2 is a schematic diagram of an explosion structure of a mechanical apparatus for automatic production and processing of building pipes according to the present invention;

FIG. 3 is a schematic structural view of a conveying and transferring mechanism of a mechanical device for automatic production and processing of building pipes according to the present invention;

FIG. 4 is a schematic structural diagram of part A in FIG. 3 of a mechanical apparatus for automatic production and processing of building pipes according to the present invention;

FIG. 5 is a schematic structural diagram of a driving mechanism of a mechanical apparatus for automatic production and processing of building pipes according to the present invention;

FIG. 6 is a schematic structural diagram of a building pipe straightening mechanism of a mechanical apparatus for automatic production and processing of building pipes according to the present invention.

The reference numbers in the figures illustrate:

1. installing a base; 2. a fixed mount; 3. a building pipe conveying and transferring mechanism; 301. a ladder-shaped feeding frame; 302. a first carriage; 303. a connecting rod; 304. fixing the transverse plate; 305. mounting a plate; 306. a movable plate; 307. a movable groove; 308. a movable block; 309. transferring the supporting rod; 310. A first gear; 311. a first link chain; 312. a second carriage; 313. a connecting frame; 314. a conveying roller; 315. a protruding rod; 316. a first linkage belt; 4. a drive mechanism; 401. a mounting seat; 402. a first servo motor; 403. a connecting shaft; 404. a first belt reel; 405. a second linkage belt; 406. a second belt reel; 407. a third drive belt; 5. A support bar; 6. installing a shell; 7. a building pipe straightening mechanism; 701. a second servo motor; 702. a worm; 703. a worm gear; 704. the lower end is connected with a roller; 705. a first straightening roller; 706. A third gear; 707. a second linkage chain; 708. a fourth gear; 709. a fifth gear; 710. a sixth gear; 711. a seventh gear; 712. the upper end is connected with a roller; 713. a second straightening roller; 714. an eighth gear; 715. a third link chain; 716. connecting blocks; 717. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-4, a mechanical device for automatic production and processing of building pipes comprises an installation base 1, a fixed frame 2, a support rod 5 and an installation shell 6, wherein the fixed frame 2 is fixedly connected to the upper surface of the installation base 1, the fixed frame 2 is connected with a building pipe conveying and transferring mechanism 3, the installation base 1 is also connected with a driving mechanism 4, and the driving mechanism 4 is matched with the building pipe conveying and transferring mechanism 3; bracing piece 5 is also fixed connection on installation base 1, and installation casing 6 fixed connection is on the top of bracing piece 5, and the internally mounted of installation casing 6 has building tubular product aligning mechanism 7, and building tubular product aligning mechanism 7 also carries transport mechanism 3 phase-matchs with building tubular product.

The building pipe conveying and transferring mechanism 3 comprises a trapezoidal feeding frame 301 and a connecting rod 303, wherein the trapezoidal feeding frame 301 is obliquely and fixedly connected to the fixed frame 2, the small-caliber end of the trapezoidal feeding frame 301 is fixedly connected with the first conveying frame 302, and the first conveying frame 302 is also fixedly connected with the fixed frame 2; connecting rod 303 fixed connection is on installation base 1, and the fixed diaphragm 304 of top fixedly connected with of connecting rod 303, fixedly connected with mounting panel 305 on the bottom surface of fixed diaphragm 304, be connected with circulation transport mechanism on connecting rod 303 and the mounting panel 305.

The circulating transfer mechanism comprises a movable plate 306, the movable plate 306 is connected to the connecting rod 303 in a sliding manner, a movable groove 307 is formed in the movable plate 306, a movable block 308 is arranged in the movable groove 307, the movable block 308 is movably arranged in the movable groove 307, and a transfer support rod 309 is fixedly connected to the movable block 308; the upper end of the mounting plate 305 is rotatably connected with a first gear 310, the lower end of the mounting plate 305 is rotatably connected with a second gear, a first linkage chain 311 is connected between the first gear 310 and the second gear in a surrounding manner, and the movable block 306 is rotatably connected to a segment of the first linkage chain 311.

The construction pipe conveying and transferring mechanism 3 further comprises a second conveying frame 312, the second conveying frame 312 is fixedly connected to the top end of the fixing frame 2, the first conveying frame 302 and the second conveying frame 312 are both provided with opening portions, and the opening portions are matched with the transferring support rods 309; one end, far away from the circulating transfer mechanism, of the second conveying frame 312 is fixedly connected with a connecting frame 313, a conveying roller 314 is rotatably connected between the connecting frames 313, one end of the conveying roller 314 is also fixedly connected with a protruding rod 315, and a first linkage belt 316 is connected to the protruding rod 315 in a surrounding mode.

The invention is provided with a building pipe conveying and transferring mechanism 3, when in use, pipes needing to be straightened are conveyed to the position of a trapezoidal feeding frame 301 by conveying equipment, the width of the trapezoidal feeding frame 301 is smaller and smaller, and the trapezoidal feeding frame 301 is obliquely and fixedly arranged, so that the pipes can smoothly enter the concave arc part of a first conveying frame 302, then the circulating and transferring mechanism works, the driving mechanism 4 drives a first gear 310 to rotate, when the first gear 310 rotates, a second gear and a first linkage chain 311 rotate together, a movable block 308 is rotationally connected with a section on the first linkage chain 311, when the first linkage chain 311 rotates, the movable block 308 can drive a movable plate 306 to reciprocate up and down through the action of the movable block 308, the movable block 308 can also circularly slide left and right in a movable groove 307 on the movable plate 306, when the movable block 308 moves to the first conveying frame 302, transport die-pin 309 can hold up the tubular product on the first carriage 302, along with the motion of first linkage chain 311 shifts to second carriage 312 department, transport bracket 309 can pass second carriage 312, and tubular product can be stayed on second carriage 312, then tightly enter into installation casing 6 and carry out tubular product aligning operation under actuating mechanism 4's supplementary, so circulation reciprocating motion, can realize building tubular product rapid and stable's automatic transportation, need not manual operation again, the mode of effectively having solved the artifical supplementary feeding of current design wastes time and energy, there is the problem of potential safety hazard.

Example 2:

referring to fig. 5, the difference between the embodiment 1 and the embodiment is that the driving mechanism 4 includes an installation base 401, a first belt pulley 404 and a second belt pulley 406, a bottom end of the installation base 401 is fixedly connected to the installation base 1, a first servo motor 402 is fixedly connected to a top surface of the installation base 401, a connection shaft 403 is fixedly connected to an output shaft of the first servo motor 402, the first belt pulley 404 is fixedly connected to the first gear 310, a second coupling belt 405 is connected between the connection shaft 403 and the first belt pulley 404 in a surrounding manner, the second belt pulley 406 is fixedly connected to the protruding rod 315 of the conveying roller 314, and a third coupling belt 407 is connected between the connection shaft 403 and the second belt pulley 406 in a surrounding manner.

When the driving mechanism 4 works, the first servo motor 402 can drive the first belt pulley 404 to rotate through the connecting shaft 403 and the second linkage belt 405, and the first belt pulley 404 is fixedly connected to the first gear 310, so that the first gear 310 and the first linkage chain 311 can be driven to rotate to complete the circular transfer work of the pipe; meanwhile, the first servo motor 402 can drive the second belt pulley 406 to rotate through the connecting shaft 403 and the third linkage belt 407, and the second belt pulley 406 is fixedly connected to the protruding rod 315 of the conveying roller 314, so that the conveying roller 314 can be driven to rotate to complete the conveying of the pipe from the building pipe conveying and transferring mechanism 3 to the building pipe straightening mechanism 7.

Example 3:

referring to fig. 6, the foundation of the

embodiment

1 or 2 is different in that the building pipe straightening mechanism 7 includes a second servo motor 701, the second servo motor 701 is fixedly connected to the side wall surface of the installation housing 6, an output shaft of the second servo motor 701 is fixedly connected to a worm 702, the worm 702 is engaged with a worm wheel 703, the worm wheel 703 is fixedly connected to both ends of a lower end connecting roller 704, the lower end connecting roller 704 is rotatably connected to the inner side wall of the installation housing 6, a first straightening roller 705 is fixedly connected to the middle position of the lower end connecting roller 704, both ends of the lower end connecting roller 704 are further fixedly connected to a third gear 706, a second linkage chain 707 is connected to the third gear 706 in a surrounding manner, a fourth gear 708 is rotatably connected to the side wall of the straightening operation box 8, and the fourth gear 708 is engaged with the second linkage chain 707.

The building pipe straightening mechanism 7 further comprises a fifth gear 709 and an upper end connecting roller 712, the fifth gear 709 is fixedly connected with a fourth gear 708, the fifth gear 709 is meshed with a sixth gear 710, the sixth gear 710 is fixedly connected with a seventh gear 711, the seventh gear 711 is rotatably connected with the side wall of the mounting shell 6, a second straightening roller 713 is fixedly connected at the middle position of the upper end connecting roller 712, eighth gears 714 are fixedly connected at two ends of the upper end connecting roller 712, a third linkage chain 715 is connected between the eighth gears 714 and the seventh gear 711 in a surrounding manner, two ends of the upper end connecting roller 712 are rotatably connected to a connecting block 716, a mounting groove is formed in the side wall of the mounting shell 6, the connecting block 716 is slidably mounted in the mounting groove, a spring 717 is fixedly connected to the top surface of the connecting block 716, and the top end of the spring 717 is fixedly connected to the inner top surface of the mounting groove.

When the building pipe straightening mechanism 7 is used, the second servo motor 701 works, the worm 702 fixedly connected to the output shaft can drive the worm wheel 703 in meshed connection with the worm wheel 703 to rotate, the worm wheel 703 is fixedly connected to the lower end connecting roller 704 so as to drive the lower end connecting roller 704 to rotate, meanwhile, the lower end connecting roller 704 is also fixedly connected with the third gear 706, the third gear 706 can realize linkage between the lower end connecting rollers 704 through the second linkage chain 707 and can drive the fourth gear 708 to rotate, the fourth gear 708 is fixedly connected with the fifth gear 709, the fifth gear 709 is meshed with the sixth gear 710 below so as to drive the sixth gear 710 to rotate, the sixth gear 71 is fixedly connected to the seventh gear 711, and the seventh gear 711 is rotatably connected with the side wall of the installation box 6 so as to drive the seventh gear 711 to rotate, the seventh gear 711 can drive the eighth gears 714 at two ends of the upper end connecting roller 712 to rotate through the third linkage chain 715, and then the upper end connecting roller 712 can also reversely rotate with the lower end connecting roller 704, while two ends of the upper end connecting roller 712 are rotatably connected to the connecting block 716, the connecting block 716 is slidably connected in the mounting groove through a spring 717, the distance between the first straightening roller 705 on the lower end connecting roller 704 and the second straightening roller 713 on the upper end connecting roller 712 is slightly smaller than the diameter of the building pipe, so that when in use, when the building pipe enters between the first straightening roller 705 and the second straightening roller 713, the upper end connecting roller 712 can be upwardly extruded, due to the restoring force of the spring 717, the second straightening roller 713 can be promoted to be closely attached to the building pipe, thereby a better straightening effect can be achieved, and by utilizing the above design, the problem of simple structure of the existing straightening mechanism is effectively solved, the straightening effect cannot be well achieved, and the product quality is influenced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution and the modified concept of the present invention should be covered by the scope of the present invention.

Claims

1. The utility model provides a mechanical equipment is used in automatic production and processing of building tubular product, includes installation base (1), mount (2), bracing piece (5) and installation casing (6), its characterized in that: the fixing frame (2) is fixedly connected to the upper surface of the mounting base (1), the fixing frame (2) is connected with a building pipe conveying and transferring mechanism (3), the mounting base (1) is also connected with a driving mechanism (4), and the driving mechanism (4) is matched with the building pipe conveying and transferring mechanism (3); bracing piece (5) also fixed connection is on installation base (1), installation casing (6) fixed connection is on the top of bracing piece (5), the internally mounted of installation casing (6) has building tubular product straightening mechanism (7), building tubular product straightening mechanism (7) also carry transport mechanism (3) phase-match with building tubular product.

2. The mechanical equipment for the automatic production and processing of the building pipes, according to claim 1, is characterized in that: the building pipe conveying and transferring mechanism (3) comprises a trapezoidal feeding frame (301) and a connecting rod (303), wherein the trapezoidal feeding frame (301) is obliquely and fixedly connected to the fixing frame (2), the small-caliber end of the trapezoidal feeding frame (301) is fixedly connected with the first conveying frame (302), and the first conveying frame (302) is also fixedly connected with the fixing frame (2); connecting rod (303) fixed connection is on installation base (1), the fixed diaphragm (304) of top fixedly connected with of connecting rod (303), fixedly connected with mounting panel (305) on the bottom surface of fixed diaphragm (304), be connected with circulation transport mechanism on connecting rod (303) and mounting panel (305).

3. The mechanical equipment for the automatic production and processing of the building pipes, according to claim 2, is characterized in that: the circulating transfer mechanism comprises a movable plate (306), the movable plate (306) is connected to the connecting rod (303) in a sliding mode, a movable groove (307) is formed in the movable plate (306), a movable block (308) is arranged in the movable groove (307), the movable block (308) is movably installed in the movable groove (307), and a transfer supporting rod (309) is fixedly connected to the movable block (308); the utility model discloses a chain wheel, including mounting panel (305), movable block (306), mounting panel (305) upper end is rotated and is connected with first gear (310), mounting panel (305) lower extreme is rotated and is connected with the second gear, it is connected with first linkage chain (311) to encircle between first gear (310) and the second gear, movable block (306) rotate to be connected on the section of first linkage chain (311).

4. The mechanical equipment for the automatic production and processing of the building pipes, according to claim 1, is characterized in that: the building pipe conveying and transferring mechanism (3) further comprises a second conveying frame (312), the second conveying frame (312) is fixedly connected to the top end of the fixing frame (2), opening parts are arranged on the first conveying frame (302) and the second conveying frame (312), and the opening parts are matched with the transferring support rods (309); second carriage (312) are kept away from circulation transport mechanism one end and link (313) fixed connection, it is connected with conveying roller (314) to rotate between link (313), the one end of conveying roller (314) is fixedly connected with stick (315) that protrudes still, it has first linkage belt (316) to encircle to be connected with on the stick that protrudes (315).

5. The mechanical equipment for the automatic production and processing of the building pipes, according to claim 1, is characterized in that: actuating mechanism (4) are including mount pad (401), first belt pulley (404) and second belt pulley dish (406), the bottom fixed connection of mount pad (401) is on installation base (1), first servo motor (402) of fixedly connected with on the top surface of mount pad (401), fixedly connected with connecting axle (403) on the output shaft of first servo motor (402), first belt pulley dish (404) and first gear (310) fixed connection, it is connected with second linkage belt (405) to encircle between connecting axle (403) and first belt pulley dish (404), second belt pulley dish (406) fixed connection is on the protruding pole (315) of delivery roller (314), it is connected with third driving belt (407) to encircle between connecting axle (403) and second belt pulley dish (406).

6. The mechanical equipment for the automatic production and processing of the building pipes, according to claim 1, is characterized in that: the building pipe straightening mechanism (7) comprises a second servo motor (701), the second servo motor (701) is fixedly connected to the side wall surface of the installation shell (6), an output shaft of the second servo motor (701) is fixedly connected with a worm (702), the worm (702) is meshed with a worm wheel (703), the worm wheel (703) is fixedly connected to two ends of a lower end connecting roller (704), the lower end connecting roller (704) is rotatably connected to the inner side wall of the installation shell (6), a first straightening roller (705) is fixedly connected to the middle position of the lower end connecting roller (704), a third gear (706) is fixedly connected to two ends of the lower end connecting roller (704), a second linkage chain (707) is connected to the third gear (706) in a surrounding manner, and a fourth gear (708) is rotatably connected to the side wall of the straightening operation box (8), the fourth gear (708) is in meshed connection with the second linkage chain (707).

7. The mechanical equipment for the automatic production and processing of the building pipes, according to claim 1, is characterized in that: the building pipe straightening mechanism (7) further comprises a fifth gear (709) and an upper end connecting roller (712), the fifth gear (709) is fixedly connected with a fourth gear (708), the fifth gear (709) is meshed with a sixth gear (710), the sixth gear (710) is fixedly connected with a seventh gear (711), the seventh gear (711) is rotatably connected with the side wall of the mounting shell (6), the middle position of the upper end connecting roller (712) is fixedly connected with a second straightening roller (713), two ends of the upper end connecting roller (712) are fixedly connected with an eighth gear (714), a third linkage chain (715) is connected between the eighth gear (714) and the seventh gear (711) in a surrounding manner, two ends of the upper end connecting roller (712) are rotatably connected onto the connecting block (716), and the side wall of the mounting shell (6) is provided with a mounting groove, connecting block (716) slidable mounting is in the inside of mounting groove, fixedly connected with spring (717) on the top surface of connecting block (716), the top fixed connection of spring (717) is on the interior top surface of mounting groove.