CN112893965A

CN112893965A - Steel base material preprocessing device for building construction

Info

Publication number: CN112893965A
Application number: CN202110123169.6A
Authority: CN
Inventors: 王朏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-06-04

Abstract

The invention discloses a steel base material preprocessing device for building construction, relates to the technical field of building construction, and solves the problems that the existing building steel base material cannot well cut workpieces with different angles and lengths in the cutting process, and simultaneously, the cutter and the motor of the existing cutting device are synchronously lifted, the weight of a machine head is heavy in cutting, the operation is inconvenient, and the use is inflexible; the top of the mounting base is rotatably connected with a group of rotary working tables; the front end surface of the rotary workbench is vertically and slidably connected with a group of lifting components; the bottom of the lifting component is connected with a group of front and rear sliding components in a front and rear sliding manner. The invention realizes the cutting of parts with different angles and different widths, has higher practicability, simultaneously, the motor and the cutting tool are separately designed, and only the tool is lifted and slid in use, so the operation is more portable and flexible, the use convenience is improved, and the cutting angle and the cutting depth are better controlled.

Description

Steel base material preprocessing device for building construction

Technical Field

The invention relates to the technical field of building construction, in particular to a steel base material preprocessing device for building construction.

Background

Buildings are a general term for buildings and structures. The steel base material is the most commonly used building base material, and the steel base material needs to be preprocessed in the building construction process.

For example, application No.: the invention discloses a steel pipe cutting machine for buildings, which comprises an air cylinder, a cutting knife, a motor, a single chip microcomputer module and a transport vehicle body, wherein a transport vehicle head is arranged in front of the transport vehicle body, a chassis is arranged below the transport vehicle body, the air cylinders are respectively arranged on two sides above the chassis, a loop bar is connected above the air cylinder, a stop lever is connected above the loop bar, a cutting machine chassis is arranged in the stop levers on two sides, a steel structure tightness adjusting bolt is arranged above the cutting machine chassis, the single chip microcomputer module is arranged in front of the cutting machine chassis, the motor is arranged above the single chip microcomputer module, a hydraulic pump is connected behind the motor, a hydraulic telescopic rod is arranged behind the hydraulic pump, a rotating; the intelligent cutting machine is simple in structure, intelligently controls the device, is driven by the air cylinder to ascend along the vertical sliding groove and then is driven by the screw rod to horizontally move for cutting, and is low in manufacturing cost and good in cutting effect.

Based on the above, the existing building steel base material cannot well cut workpieces with different angles and lengths in the cutting process, and meanwhile, the cutter and the motor of the existing cutting device are lifted synchronously, so that the machine head is heavy in weight, inconvenient to operate and inflexible to use in cutting; therefore, the existing requirements are not met, and a steel base material preprocessing device for building construction is provided for the same.

Disclosure of Invention

The invention aims to provide a steel base material preprocessing device for building construction, which solves the problems that the existing building steel base material proposed in the background technology can not well cut workpieces with different angles and lengths in the cutting process, and simultaneously, the cutter and the motor of the existing cutting device are synchronously lifted, so that the machine head is heavy in weight, inconvenient to operate and inflexible to use in cutting.

In order to achieve the purpose, the invention provides the following technical scheme: a steel substrate preprocessing device for building construction comprises an installation base; the top of the mounting base is rotatably connected with a group of rotary working tables; the front end surface of the rotary workbench is vertically and slidably connected with a group of lifting components; the bottom of the lifting component is connected with a group of front and rear sliding components in a front and rear sliding manner; the rear part of the rotary worktable is fixedly connected with a group of driving components; the middle part of the rotary workbench is rotatably connected with a group of transmission vertical shafts; the middle part of the lifting component is rotatably connected with a group of transmission transverse shafts; the inner part of the front and rear sliding assembly is rotatably connected with a group of transmission intermediate transmission shafts; the lower part of the front and back sliding component is rotatably connected with a group of cutting components.

Preferably, the rotary worktable further comprises a lifting guide piece, a group of lifting guide pieces are fixedly connected to the left side and the right side of the front end face of the upper portion of the rotary worktable, and the lifting assembly is connected with the rotary worktable in a sliding mode through the lifting guide pieces.

Preferably, the lifting assembly further comprises a front and rear sliding guide piece, the left and right sides of the lower portion of the lifting assembly are fixedly connected with a group of front and rear sliding guide pieces, and the front and rear sliding assembly is connected with the lifting assembly in a sliding mode through the front and rear sliding guide pieces.

Preferably, the driving assembly further comprises a driving bevel gear, a group of driving bevel gears is coaxially and fixedly connected to a rotating shaft of the driving assembly, the transmission vertical shaft further comprises a vertical shaft driven bevel gear, a group of vertical shaft driven bevel gears is coaxially and fixedly connected to the bottom of the transmission vertical shaft, and the driving bevel gear and the vertical shaft driven bevel gear are meshed to form a bevel gear transmission mechanism.

Preferably, the transmission vertical shaft further comprises vertical shaft guide grooves and vertical shaft drive bevel gears, six groups of vertical shaft guide grooves are circumferentially arranged on the transmission vertical shaft in an array mode, the transmission vertical shaft is connected with a group of vertical shaft drive bevel gears in a sliding mode through the vertical shaft guide grooves, and the vertical shaft drive bevel gears are rotatably connected with the lifting assembly.

Preferably, the transmission transverse shaft further comprises a transverse shaft driven bevel gear, the rear end face of the transmission transverse shaft is rotatably connected with a group of transverse shaft driven bevel gears, and the transverse shaft driven bevel gears and the vertical shaft driving bevel gears are meshed to form a bevel gear transmission mechanism together.

Preferably, the transmission transverse shaft further comprises a transverse shaft guide groove and a transverse shaft driving bevel gear, six groups of transverse shaft guide grooves are arranged on the outer side of the transmission transverse shaft in a circumferential array mode, the outer side of the transmission transverse shaft is connected with a group of transverse shaft driving bevel gears in a sliding mode through the transverse shaft guide grooves, the transverse shaft driving bevel gears are rotatably connected with the front and rear sliding assemblies, the transmission intermediate transmission shaft further comprises an intermediate shaft driven bevel gear, a group of intermediate shaft driven bevel gears are coaxially and fixedly connected to the top of the transmission intermediate transmission shaft, and the transverse shaft driving bevel gear and the intermediate shaft driven bevel gears are.

Preferably, the transmission intermediate transmission shaft further comprises an intermediate shaft driving bevel gear, the bottom of the transmission intermediate transmission shaft is coaxially and fixedly connected with a group of intermediate shaft driving bevel gears, the cutting assembly further comprises a cutting driven bevel gear, the right end face of the cutting assembly is coaxially and fixedly connected with a group of cutting driven bevel gears, and the intermediate shaft driving bevel gear and the cutting driven bevel gears are meshed to form a bevel gear transmission mechanism.

Preferably, the cutting assembly further comprises a cutting tool, the left end face of the cutting assembly is coaxially and fixedly connected with a group of cutting tools, the rotary workbench further comprises a cutting knife avoiding seam, a group of cutting knife avoiding seams are formed in the top of the rotary workbench, and the positions of the cutting tools correspond to the cutting knife avoiding seams up and down.

Compared with the prior art, the invention has the beneficial effects that:

when the invention is used, the cutting angle is changed through the rotation of the rotary worktable, the requirements of splicing welding between different base materials are met, the cutting action of parts is realized through the up-and-down sliding of the lifting component, the cutting of longer parts is realized through the front-and-back sliding of the front-and-back sliding component, when in cutting, the driving component drives the transmission vertical shaft to rotate through the bevel gear transmission mechanism formed by the engagement of the driving bevel gear and the vertical shaft driven bevel gear, the transmission vertical shaft drives the vertical shaft driving bevel gear to rotate through the vertical shaft guide groove, the vertical shaft driving bevel gear drives the transmission transverse shaft to rotate through the bevel gear transmission mechanism formed by the engagement of the transverse shaft driven bevel gear and the vertical shaft driving bevel gear, the transmission transverse shaft drives the transverse shaft driving bevel gear to rotate through the transverse shaft guide groove, the transverse shaft driving bevel gear drives the transmission intermediate transmission shaft to rotate through the bevel, the transmission intermediate transmission shaft drives the cutting assembly to rotate through a bevel gear transmission mechanism which is formed by meshing an intermediate shaft driving bevel gear and a cutting driven bevel gear together, and the cutting assembly cuts the parts through a cutting tool.

The invention realizes the cutting of parts with different angles and different widths, has higher practicability, simultaneously, the motor and the cutting tool are separately designed, and only the tool is lifted and slid in use, so the operation is more portable and flexible, the use convenience is improved, and the cutting angle and the cutting depth are better controlled.

Drawings

FIG. 1 is a schematic side view of the present invention;

FIG. 2 is a schematic view of the left side axial side structure of the present invention;

FIG. 3 is a schematic side view of the rotary table of the present invention;

FIG. 4 is a schematic side view of the internal drive shaft of the present invention;

FIG. 5 is a schematic axial side view of the fore-aft sliding assembly of the present invention;

FIG. 6 is a schematic side view of the cutting assembly of the present invention;

FIG. 7 is a schematic side view of the lift assembly of the present invention;

FIG. 8 is a schematic side elevational view of the vertical drive shaft of the present invention;

in the figure: 1. installing a base; 2. rotating the working table; 201. cutting a knife avoiding seam; 202. a lifting guide; 3. a lifting assembly; 301. a front and rear sliding guide; 4. a forward and backward sliding assembly; 5. a drive assembly; 501. a drive bevel gear; 6. a transmission vertical shaft; 601. a vertical shaft driven bevel gear; 602. a vertical shaft guide groove; 603. a vertical shaft drive bevel gear; 7. a transmission cross shaft; 701. a horizontal shaft driven bevel gear; 702. a cross shaft guide groove; 703. a horizontal shaft drive bevel gear; 8. a transmission intermediate transmission shaft; 801. a countershaft driven bevel gear; 802. a middle shaft drive bevel gear; 9. a cutting assembly; 901. cutting the driven bevel gear; 902. and (4) cutting the cutter.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a steel substrate preprocessing device for building construction comprises an installation base 1; the top of the mounting base 1 is rotatably connected with a group of rotary working tables 2; the front end surface of the rotary worktable 2 is connected with a group of lifting components 3 up and down in a sliding way; the bottom of the lifting component 3 is connected with a group of front and rear sliding components 4 in a front and rear sliding manner; the rear part of the rotary worktable 2 is fixedly connected with a group of driving components 5; the middle part of the rotary worktable 2 is rotatably connected with a group of transmission vertical shafts 6; the middle part of the lifting component 3 is rotationally connected with a group of transmission transverse shafts 7; the inner part of the front and rear sliding component 4 is rotatably connected with a group of transmission intermediate transmission shafts 8; the lower part of the front and back sliding component 4 is rotatably connected with a group of cutting components 9.

Further, swivel work head 2 still includes lift guide 202, and the equal fixedly connected with in the upper portion of swivel work head 2 of terminal surface left and right sides has a set of lift guide 202, and lifting unit 3 passes through lift guide 202 and swivel work head 2 sliding connection, and in use, realizes the direction to lifting unit 3 through lift guide 202.

Further, lifting unit 3 still including the front and back guide 301 that slides, the equal fixedly connected with front and back guide 301 that slides of lower part left and right sides of lifting unit 3, front and back subassembly 4 that slides through front and back guide 301 and lifting unit 3 sliding connection, in use, through front and back guide 301 that slides has realized the direction of subassembly 4 that slides around.

Further, the driving component 5 further comprises a driving bevel gear 501, a group of driving bevel gears 501 are coaxially and fixedly connected to a rotating shaft of the driving component 5, the transmission vertical shaft 6 further comprises a vertical shaft driven bevel gear 601, a group of vertical shaft driven bevel gears 601 are coaxially and fixedly connected to the bottom of the transmission vertical shaft 6, the driving bevel gears 501 and the vertical shaft driven bevel gears 601 are meshed to form a bevel gear transmission mechanism, and in use, the driving component 5 drives the transmission vertical shaft 6 to rotate through the bevel gear transmission mechanism formed by the meshing of the driving bevel gears 501 and the vertical shaft driven bevel gears 601.

Further, the transmission vertical shaft 6 further comprises vertical shaft guide grooves 602 and vertical shaft drive bevel gears 603, six groups of vertical shaft guide grooves 602 are circumferentially arranged on the transmission vertical shaft 6 in an array manner, the transmission vertical shaft 6 is connected with a group of vertical shaft drive bevel gears 603 in a sliding manner through the vertical shaft guide grooves 602, the vertical shaft drive bevel gears 603 are rotatably connected with the lifting assembly 3, in use, the vertical shaft drive bevel gears 603 slide up and down along with the lifting assembly 3, and when the transmission vertical shaft 6 rotates, the transmission vertical shaft 6 drives the vertical shaft drive bevel gears 603 to rotate through the vertical shaft guide grooves 602.

Further, the transmission horizontal shaft 7 further comprises a horizontal shaft driven bevel gear 701, the rear end face of the transmission horizontal shaft 7 is rotatably connected with a group of horizontal shaft driven bevel gears 701, the horizontal shaft driven bevel gears 701 and the vertical shaft driving bevel gear 603 are meshed to form a bevel gear transmission mechanism, and in use, when the vertical shaft driving bevel gear 603 rotates, the vertical shaft driving bevel gear 603 drives the transmission horizontal shaft 7 to rotate through the bevel gear transmission mechanism formed by the meshing of the horizontal shaft driven bevel gears 701 and the vertical shaft driving bevel gear 603.

Further, the transmission transverse shaft 7 further comprises a transverse shaft guide groove 702 and a transverse shaft drive bevel gear 703, six groups of transverse shaft guide grooves 702 are arranged on the outer side of the transmission transverse shaft 7 in a circumferential array manner, the outer side of the transmission transverse shaft 7 is connected with a group of transverse shaft drive bevel gears 703 in a sliding manner through the transverse shaft guide grooves 702, the transverse shaft drive bevel gears 703 are rotatably connected with the front and back sliding assembly 4, the transmission intermediate transmission shaft 8 further comprises an intermediate shaft driven bevel gear 801, the top of the transmission intermediate transmission shaft 8 is coaxially and fixedly connected with a group of intermediate shaft driven bevel gears 801, the transverse shaft drive bevel gears 703 and the intermediate shaft driven bevel gears 801 are meshed to form a, in use, when the transmission transverse shaft 7 rotates, the transmission transverse shaft 7 drives the transverse shaft driving bevel gear 703 to rotate through the transverse shaft guide groove 702, and the transverse shaft driving bevel gear 703 drives the transmission intermediate transmission shaft 8 to rotate through a bevel gear transmission mechanism formed by meshing the transverse shaft driving bevel gear 703 and the intermediate shaft driven bevel gear 801.

Further, the transmission intermediate transmission shaft 8 further comprises an intermediate shaft driving bevel gear 802, the bottom of the transmission intermediate transmission shaft 8 is coaxially and fixedly connected with a group of intermediate shaft driving bevel gears 802, the cutting assembly 9 further comprises a cutting driven bevel gear 901, the right end face of the cutting assembly 9 is coaxially and fixedly connected with a group of cutting driven bevel gears 901, the intermediate shaft driving bevel gear 802 and the cutting driven bevel gears 901 are meshed to jointly form a bevel gear transmission mechanism, and when the transmission intermediate transmission shaft 8 rotates in use, the transmission intermediate transmission shaft 8 drives the cutting assembly 9 to rotate through the bevel gear transmission mechanism formed by the meshing of the intermediate shaft driving bevel gear 802 and the cutting driven bevel gears 901.

Further, cutting unit 9 is still including cutting tool 902, a set of cutting tool 902 of the coaxial fixedly connected with of left end face of cutting unit 9, swivel work head 2 is still including cutting dodging a sword seam 201, a set of cutting dodging a sword seam 201 has been seted up at swivel work head 2's top, cutting tool 902's position and cutting dodge sword seam 201 and correspond from top to bottom, in use, when cutting unit 9 is rotatory, cutting unit 9 cuts the part through cutting tool 902, cutting tool 902 gets into the cutting and dodges sword seam 201 simultaneously, prevent that cutting tool 902 and mechanical contact from causing to mechanical cutting or the knife scheduling problem that appears collapsing.

The working principle is as follows: when the cutting machine is used, the cutting angle is changed through the rotation of the rotary worktable 2, the requirements for splicing and welding different base materials are met, the cutting action on parts is realized through the up-and-down sliding of the lifting component 3, the cutting on longer parts is realized through the back-and-forth sliding of the back-and-forth sliding component 4, when in cutting, the driving component 5 drives the transmission vertical shaft 6 to rotate through the bevel gear transmission mechanism formed by the engagement of the driving bevel gear 501 and the vertical shaft driven bevel gear 601, the transmission vertical shaft 6 drives the vertical shaft driving bevel gear 603 to rotate through the vertical shaft guide groove 602, the vertical shaft driving bevel gear 603 drives the transmission horizontal shaft 7 to rotate through the bevel gear transmission mechanism formed by the engagement of the horizontal shaft driven bevel gear 701 and the vertical shaft driving bevel gear 603, the transmission horizontal shaft 7 drives the horizontal shaft driving bevel gear to rotate through the horizontal shaft guide groove 702, the horizontal shaft driving bevel gear 703 drives the transmission shaft through the bevel The middle transmission shaft 8 rotates, the middle transmission shaft 8 drives the cutting assembly 9 to rotate through a bevel gear transmission mechanism which is formed by meshing a middle shaft driving bevel gear 802 and a cutting driven bevel gear 901 together, and the cutting assembly 9 cuts parts through a cutting tool 902.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a steel substrate preprocessing device for construction which characterized in that: comprises a mounting base (1); the top of the mounting base (1) is rotatably connected with a group of rotary working tables (2); the front end face of the rotary workbench (2) is vertically connected with a group of lifting components (3) in a sliding manner; the bottom of the lifting component (3) is connected with a group of front and rear sliding components (4) in a front and rear sliding manner; the rear part of the rotary workbench (2) is fixedly connected with a group of driving components (5); the middle part of the rotary workbench (2) is rotatably connected with a group of transmission vertical shafts (6); the middle part of the lifting component (3) is rotationally connected with a group of transmission transverse shafts (7); the inside of the front and rear sliding assembly (4) is rotatably connected with a group of transmission intermediate transmission shafts (8); the lower part of the front and back sliding component (4) is rotatably connected with a group of cutting components (9).

2. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: the rotary workbench (2) further comprises a lifting guide piece (202), the left side and the right side of the upper portion of the rotary workbench (2) are fixedly connected with a group of lifting guide pieces (202), and the lifting assembly (3) is connected with the rotary workbench (2) in a sliding mode through the lifting guide pieces (202).

3. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: lifting unit (3) are still including around the guide (301) that slides, the equal fixedly connected with of the lower part left and right sides of lifting unit (3) is around a set of guide (301) that slides, and around the subassembly (4) that slides is through around guide (301) and lifting unit (3) sliding connection that slides.

4. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: the driving assembly (5) further comprises a driving bevel gear (501), a group of driving bevel gears (501) are coaxially and fixedly connected to a rotating shaft of the driving assembly (5), the transmission vertical shaft (6) further comprises a vertical shaft driven bevel gear (601), a group of vertical shaft driven bevel gears (601) are coaxially and fixedly connected to the bottom of the transmission vertical shaft (6), and the driving bevel gears (501) and the vertical shaft driven bevel gears (601) are meshed to form a bevel gear transmission mechanism.

5. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: the transmission vertical shaft (6) further comprises vertical shaft guide grooves (602) and vertical shaft driving bevel gears (603), six groups of vertical shaft guide grooves (602) are circumferentially arranged on the transmission vertical shaft (6) in an array mode, the transmission vertical shaft (6) is connected with one group of vertical shaft driving bevel gears (603) in a sliding mode through the vertical shaft guide grooves (602), and the vertical shaft driving bevel gears (603) are rotatably connected with the lifting assembly (3).

6. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: the transmission transverse shaft (7) further comprises a transverse shaft driven bevel gear (701), the rear end face of the transmission transverse shaft (7) is rotatably connected with a group of transverse shaft driven bevel gears (701), and the transverse shaft driven bevel gears (701) are meshed with the vertical shaft driving bevel gear (603) to form a bevel gear transmission mechanism.

7. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: the transmission transverse shaft (7) further comprises a transverse shaft guide groove (702) and a transverse shaft driving bevel gear (703), six groups of transverse shaft guide grooves (702) are arranged on the outer side of the transmission transverse shaft (7) in a circumferential array mode, the outer side of the transmission transverse shaft (7) is connected with a group of transverse shaft driving bevel gears (703) in a sliding mode through the transverse shaft guide grooves (702), the transverse shaft driving bevel gears (703) are rotatably connected with the front and rear sliding assembly (4), the transmission intermediate transmission shaft (8) further comprises an intermediate shaft driven bevel gear (801), a group of intermediate shaft driven bevel gears (801) are coaxially and fixedly connected to the top of the transmission intermediate transmission shaft (8), and the transverse shaft driving bevel gears (703) and the intermediate shaft driven bevel gears (801.

8. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: the transmission intermediate transmission shaft (8) further comprises an intermediate shaft driving bevel gear (802), the bottom of the transmission intermediate transmission shaft (8) is coaxially and fixedly connected with a group of intermediate shaft driving bevel gears (802), the cutting assembly (9) further comprises a cutting driven bevel gear (901), the right end face of the cutting assembly (9) is coaxially and fixedly connected with a group of cutting driven bevel gears (901), and the intermediate shaft driving bevel gear (802) and the cutting driven bevel gears (901) are meshed to form a bevel gear transmission mechanism together.

9. A pre-processing apparatus for a steel substrate for construction according to claim 1, wherein: cutting assembly (9) are still including cutting tool (902), a set of cutting tool (902) of the coaxial fixedly connected with of left end face of cutting assembly (9), and rotary worktable (2) are still kept away sword seam (201) including the cutting, and a set of cutting is seted up at the top of rotary worktable (2) and is kept away sword seam (201), and the position and the cutting of cutting tool (902) keep away sword seam (201) and correspond from top to bottom.