CN110605510A

CN110605510A - Frame welding position structure

Info

Publication number: CN110605510A
Application number: CN201910867572.2A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Shanghai Ruilin Power Equipment Co ltd
Priority date: 2018-03-28
Filing date: 2018-03-28
Publication date: 2019-12-24
Anticipated expiration: 2038-03-28
Also published as: CN110605511A; CN108436360B; CN110605510B; CN110605511B; CN108436360A

Abstract

The invention relates to a positioning device, in particular to a frame welding positioning structure, which comprises a whole machine bracket, a power mechanism, a transverse motion mechanism, a vertical motion mechanism, a transmission mechanism I, a transmission mechanism II, a switching mechanism, a switching fixed block, a horizontal moving mechanism, a sliding support rod, a positioning column and a sliding column, wherein the power mechanism simultaneously drives the transverse motion mechanism and the vertical motion mechanism to rotate; when the vertical motion mechanism rotates, the vertical motion mechanism drives the sliding support rod to move up and down, and the sliding support rod drives the sliding support rod to be positioned in the sliding groove to slide so as to change the up-and-down position of the positioning; the horizontal moving handle is rotated to drive the positioning to move horizontally, and the positioning can be controlled and moved in three freedom modes in space.

Description

Frame welding position structure

Technical Field

The invention relates to a positioning device, in particular to a frame welding positioning structure.

Background

For example, patent No. CN201610814146.9 discloses a frame welding positioning device, which includes a horizontally disposed mounting table and a vertical column connecting the bottom of the mounting table to form a support leg, wherein two side edges and the rear edge of the mounting table are both vertically provided with a baffle, the two side baffles are horizontally provided with a cross beam, the middle of the mounting table is provided with a vertically through mounting groove, four sides of the mounting groove are provided with positioning components, a pressing component mounted on the cross beam is correspondingly arranged above the mounting groove, the lower part of the mounting groove is correspondingly provided with a supporting plate component, the inner walls of the two side baffles are oppositely provided with clamping components on the left and right sides, and the frame welding positioning device is further connected with; the disadvantage of this invention is that positioning in three degrees of freedom in space cannot be achieved.

Disclosure of Invention

The invention aims to provide a frame welding positioning structure which can clamp or support a welding frame, can realize three-degree-of-freedom movement in a space and can accurately position a welding position.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a frame welding position structure, includes complete machine support, power unit, transverse motion mechanism, vertical motion mechanism, drive mechanism I, drive mechanism II, switching mechanism, switches fixed block, horizontal migration mechanism, slip bracing piece, location and slip post, switching mechanism includes shift fork and switching sliding block, and the shift fork includes the shift fork body, promotes the body and switches the sliding hole, it is provided with two to promote the body, and two are promoted the body and weld respectively in the left and right sides of shift fork body lower extreme, switches the sliding hole setting at the middle-end of the shift fork body, switches the sliding block and includes spring mounting post and triangle-shaped body, and the lower extreme welding of triangle-shaped body is in the upper end of spring mounting post, and spring mounting post sliding connection is in switching the sliding hole, and the cover is equipped with compression spring on the spring mounting post, and compression spring is located and switches between sliding hole and the shift, The vertical motion mechanism, the transmission mechanism I and the transmission mechanism II are rotatably connected on the whole machine support, the power mechanism is respectively meshed with the transverse motion mechanism and the vertical motion mechanism through gear transmission, the vertical motion mechanism and the transmission mechanism I are connected through worm and gear transmission, the transmission mechanism I and the transmission mechanism II are meshed through gear transmission, the switching fixed block is fixedly connected on the whole machine support, the fork body, the horizontal moving mechanism, the sliding support rod and the sliding column are respectively and slidably connected on the whole machine support, the lower ends of the two pushing bodies are respectively in clearance fit on the transverse motion mechanism and the vertical motion mechanism, the upper end of the triangular body is contacted with the switching fixed block, the two sliding support rods are respectively and fixedly connected at the upper end of the transmission mechanism II, the two ends of positioning are respectively and slidably connected on the two sliding support rods, and the positioning is slidably connected on the horizontal, the middle end of the sliding column is connected to the horizontal moving mechanism in a sliding mode, and the right end of the sliding column is fixedly connected to the upper end of the transverse moving mechanism.

As a further optimization of the technical scheme, the invention relates to a frame welding positioning structure, wherein a complete machine support comprises a workbench, two support bottom plates, sliding support plates, two vertical sliding grooves I, two switching sliding ports, two vertical sliding grooves II, two transverse sliding grooves I and two transverse sliding grooves II, the two support bottom plates and the two sliding support plates are respectively and fixedly connected to the left side and the right side of the lower end of the workbench, the two sliding support plates are respectively and fixedly connected to the front side and the rear side of the upper end of the workbench, the two ends of the bottom plate are respectively and fixedly connected to the lower ends of the two support bottom plates, the two switching sliding ports are arranged on the support bottom plate on the right side, the two vertical sliding grooves I are respectively and vertically arranged on the two support bottom plates, the four vertical sliding grooves II are respectively and vertically arranged on the left side and the right side of the two sliding support bottom, horizontal sliding tray I and horizontal sliding tray II all are provided with two, and two horizontal sliding tray I transversely set up respectively in two slip backup pads, and two horizontal sliding tray II transversely set up respectively in two slip backup pads, and horizontal sliding tray I is located the upper end of horizontal sliding tray II, and shift fork body sliding connection is in switching the sliding port.

As a further optimization of the technical scheme, the frame welding positioning structure comprises a power mechanism, a rotating handle and a power gear, wherein the rotating handle is fixedly connected to the right end of the power shaft, the power gear is fixedly connected to the power shaft, and two ends of the power shaft are respectively and rotatably connected to two supporting bottom plates.

As further optimization of the technical scheme, the frame welding positioning structure comprises a transverse movement screw rod, a transverse movement gear, a transverse movement side tooth, a transverse movement connecting key and a transverse movement support, wherein the transverse movement gear is rotatably connected to the right end of the transverse movement screw rod, the transverse movement side tooth is circumferentially connected to the right end of the transverse movement screw rod through the transverse movement connecting key, the transverse movement side tooth is located on the left side of the transverse movement gear, the transverse movement support is L-shaped, a transmission threaded hole I is formed in the lower end of the transverse movement support, the transverse movement support is connected to the transverse movement screw rod through a transmission thread, two ends of the transverse movement screw rod are respectively rotatably connected to two supporting bottom plates, and the transverse movement gear is meshed with a power gear.

As a further optimization of the technical scheme, the frame welding and positioning structure comprises a vertical movement worm, a vertical movement gear, vertical movement side teeth and a vertical movement connecting key, wherein the vertical movement gear is rotatably connected to the right end of the vertical movement worm, the vertical movement side teeth are circumferentially connected to the right end of the vertical movement worm through the vertical movement connecting key, the vertical movement side teeth are located on the right side of the vertical movement gear, two ends of the vertical movement worm are respectively rotatably connected to two supporting bottom plates, and the vertical movement gear is meshed with a power gear.

As further optimization of the technical scheme, the frame welding positioning structure comprises a transmission mechanism I, a transmission worm wheel, a transmission gear I, a transmission baffle and a transmission support, wherein the transmission worm wheel is fixedly connected to the middle end of the transmission shaft I, the transmission gear I is fixedly connected to the lower end of the transmission shaft I, the lower end of the transmission support is rotatably connected to the transmission worm wheel, the upper end of the transmission support is fixedly connected to a workbench, the transmission baffle is fixedly connected to the transmission worm wheel, two ends of the transmission shaft I are respectively rotatably connected to the workbench and a bottom plate, and the transmission worm wheel is meshed with a vertical movement worm.

As further optimization of the technical scheme, the frame welding positioning structure comprises a transmission mechanism II, a transmission gear II and a vertical movement support, wherein the transmission gear II is fixedly connected to the lower end of the transmission shaft II, transmission threads are arranged on the transmission shaft II, a transmission threaded hole II is formed in the middle end of the vertical movement support, the vertical movement support is connected to the transmission shaft II through the transmission threads, two ends of the transmission shaft II are respectively and rotatably connected to a workbench and a bottom plate, the transmission gear II is meshed with the transmission gear I, and two ends of the vertical movement support are respectively and slidably connected into two vertical sliding grooves I.

As the further optimization of the technical scheme, the frame welding and positioning structure is characterized in that the switching fixed block is M-shaped, the switching fixed block is fixedly connected to the workbench, and the triangular body is in contact with the switching fixed block.

As a further optimization of the technical scheme, the frame welding positioning structure comprises a horizontal moving mechanism, two horizontal moving sliders, two horizontal moving handles and two moving blocks, wherein the two horizontal moving sliders are arranged, two ends of the horizontal moving screw are respectively and rotatably connected to the two horizontal moving sliders, a sliding groove is vertically arranged on the moving block, a transmission threaded hole III is formed in the middle end of the moving block, the moving block is connected to the horizontal moving screw through transmission threads, the horizontal moving handles are fixedly connected to the rear end of the horizontal moving screw, and the two horizontal moving sliders are respectively and slidably connected into two transverse sliding grooves II.

As a further optimization of the technical scheme, the frame welding positioning structure is characterized in that the sliding support rods are provided with two rectangular sliding grooves, two ends of the two sliding support rods are respectively slidably connected into the four vertical sliding grooves ii, two ends of the positioning are respectively slidably connected into the two rectangular sliding grooves, a middle end of the positioning is slidably connected into the sliding grooves, two ends of the sliding column are respectively slidably connected into the two transverse sliding grooves i, an upper end of the moving block is slidably connected onto the sliding column, and a right end of the sliding column is fixedly connected to an upper end of the transverse moving support.

According to the frame welding positioning structure, the transverse movement mechanism and the vertical movement mechanism are driven to rotate simultaneously through the power mechanism, the power switching of the transverse movement mechanism and the vertical movement mechanism is controlled through sliding connection of the manual switching mechanism on the switching fixing block, when the transverse movement mechanism moves, the sliding column is driven to slide on the whole machine support, the sliding column drives the positioning to slide on the sliding support rod, and the transverse position of the positioning is changed; when the vertical motion mechanism rotates, the vertical motion mechanism drives the vertical motion support to move up and down, the vertical motion support drives the sliding support rod to move up and down, and the sliding support rod drives the sliding support rod to be positioned in the sliding groove to slide so as to change the up-and-down position of the positioning; the horizontal movement handle is rotated to drive the moving block to move horizontally, the moving block drives the positioning block to move horizontally, the positioning can be controlled and moved in three freedom modes in space, and the moving transverse movement mechanism, the vertical movement mechanism and the horizontal movement mechanism are connected through the lead screw in a transmission mode, so that reverse self-locking can be achieved.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the frame welding positioning structure of the present invention;

FIG. 2 is a schematic view of a transmission structure of the frame welding positioning structure of the present invention;

FIG. 3 is a schematic view of the overall bracket structure of the present invention;

FIG. 4 is a schematic diagram of a power mechanism according to the present invention;

FIG. 5 is a schematic view of the lateral motion mechanism of the present invention;

FIG. 6 is a schematic view of the lateral motion mount structure of the present invention;

FIG. 7 is a schematic view of the vertical motion mechanism of the present invention;

FIG. 8 is a schematic structural diagram of a transmission mechanism I of the invention;

FIG. 9 is a schematic structural diagram of a transmission mechanism II of the present invention;

FIG. 10 is a schematic view of the vertical motion support of the present invention;

FIG. 11 is a schematic diagram of the switching mechanism of the present invention;

FIG. 12 is a schematic view of a fork of the present invention;

FIG. 13 is a schematic view of the toggle slider configuration of the present invention;

FIG. 14 is a block diagram of the switching mechanism of the present invention;

FIG. 15 is a schematic view of the horizontal movement mechanism of the present invention;

figure 16 is a schematic view of the moving mass structure of the present invention;

FIG. 17 is a schematic view of the sliding support bar of the present invention;

fig. 18 is a schematic view of the positioning structure of the present invention.

In the figure: a complete machine bracket 1; a workbench 1-1; a support base plate 1-2; a bottom plate 1-3; sliding support plates 1-4; 1-5 vertical sliding grooves; switching sliding ports 1-6; vertical sliding grooves II 1-7; transverse sliding grooves I1-8; transverse sliding grooves II 1-9; a power mechanism 2; a power shaft 2-1; rotating the handle 2-2; 2-3 of a power gear; a lateral movement mechanism 3; 3-1 of a transverse moving screw rod; a lateral movement gear 3-2; lateral motion side teeth 3-3; a transverse motion link 3-4; 3-5 of a transverse moving bracket; a vertical movement mechanism 4; a vertically moving worm 4-1; a vertical motion gear 4-2; 4-3 of vertical movement side teeth; a vertical motion link 4-4; a transmission mechanism I5; a transmission shaft I5-1; a transmission worm gear 5-2; 5-3 of a transmission gear I; 5-4 of a transmission baffle plate; 5-5 of a transmission bracket; a transmission mechanism II 6; a transmission shaft II 6-1; a transmission gear II 6-2; a vertical motion support 6-3; a switching mechanism 7; a shifting fork 7-1; a shifting fork body 7-1-1; the pushing body 7-1-2; switching the sliding holes 7-1-3; a switching slider 7-2; a spring mounting post 7-2-1; a triangular body 7-2-2; switching the fixed block 8; a horizontal movement mechanism 9; horizontally moving a screw rod 9-1; horizontally moving a slide block 9-2; horizontally moving a handle 9-3; a moving block 9-4; a sliding groove 9-4-1; a sliding support bar 10; a rectangular sliding groove 10-1; positioning 11; the posts 12 are slid.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 18, and a frame welding positioning structure includes a complete machine support 1, a power mechanism 2, a transverse movement mechanism 3, a vertical movement mechanism 4, a transmission mechanism i 5, a transmission mechanism ii 6, a switching mechanism 7, a switching fixed block 8, a horizontal movement mechanism 9, a sliding support rod 10, a positioning 11 and a sliding column 12, wherein the switching mechanism 7 includes a shifting fork 7-1 and a switching sliding block 7-2, the shifting fork 7-1 includes a shifting fork body 7-1-1, a pushing body 7-1-2 and a switching sliding hole 7-1-3, the pushing body 7-1-2 is provided with two pushing bodies 7-1-2, the two pushing bodies 7-1-2 are respectively welded on the left side and the right side of the lower end of the shifting fork body 7-1-1, the switching sliding hole 7-1-3 is arranged at the middle end of the shifting fork body 7-1, the switching sliding block 7-2 comprises a spring mounting column 7-2-1 and a triangular body 7-2-2, the lower end of the triangular body 7-2-2 is welded at the upper end of the spring mounting column 7-2-1, the spring mounting column 7-2-1 is connected in the switching sliding hole 7-1-3 in a sliding manner, a compression spring is sleeved on the spring mounting column 7-2-1 and is positioned between the switching sliding hole 7-1-3 and the shifting fork body 7-1-1, the power mechanism 2, the transverse movement mechanism 3, the vertical movement mechanism 4, the transmission mechanism I5 and the transmission mechanism II 6 are all connected on the whole machine support 1 in a rotating manner, the power mechanism 2 is respectively engaged with the transverse movement mechanism 3 and the vertical movement mechanism 4 through gear transmission, the vertical movement mechanism 4 is connected with the transmission mechanism I5 through a worm gear, the transmission mechanism I5 and the transmission mechanism II 6 are engaged through gear transmission, the switching fixed block 8 is fixedly connected on the whole machine support 1, the shifting fork body 7-1-1, the horizontal moving mechanism 9, the sliding support rod 10 and the sliding column 12 are all connected on the whole machine support 1 in a sliding manner, the lower ends of the two pushing bodies 7-1-2 are respectively in clearance fit on the horizontal moving mechanism 3 and the vertical moving mechanism 4, the upper end of the triangular body 7-2-2 is contacted with the switching fixed block 8, the two sliding support rods 10 are respectively and fixedly connected at the upper end of the transmission mechanism II 6, the two ends of the positioning 11 are respectively and slidably connected on the two sliding support rods 10, the positioning 11 is slidably connected on the horizontal moving mechanism 9, the middle end of the sliding column 12 is slidably connected on the horizontal moving mechanism 9, and the right end of the sliding column 12 is fixedly connected at the upper end of the, the transverse motion mechanism 3 and the vertical motion mechanism 4 are driven to rotate simultaneously through the power mechanism 2, the power switching of the transverse motion mechanism 3 and the vertical motion mechanism 4 is controlled through sliding connection at the switching fixing block 8 through the manual switching mechanism 7, when the transverse motion mechanism 3 moves, the sliding column 12 is driven to slide on the whole machine support 1, the sliding column 12 drives the positioning 11 to slide on the sliding support rod 10, and the transverse position of the positioning 11 is changed; when the vertical movement mechanism 4 rotates, the vertical movement mechanism 4 drives the vertical movement bracket 6-3 to move up and down, the vertical movement bracket 6-3 drives the sliding support rod 10 to move up and down, and the sliding support rod 10 drives the positioning 11 to slide in the sliding groove 9-4-1 to change the up and down position of the positioning; the horizontal moving handle 9-3 is rotated to drive the moving block 9-4 to move horizontally, the moving block 9-4 drives the positioning 11 to move horizontally, the positioning 11 can be controlled and moved freely in space, and the moving transverse moving mechanism 3, the vertical moving mechanism 4 and the horizontal moving mechanism 9 are connected through lead screws in a transmission mode to achieve reverse self-locking.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-18, and the embodiment will be further described, where the overall bracket 1 includes a workbench 1-1, a support bottom plate 1-2, a bottom plate 1-3, sliding support plates 1-4, vertical sliding grooves i 1-5, switching sliding ports 1-6, vertical sliding grooves ii 1-7, lateral sliding grooves i 1-8, and lateral sliding grooves ii 1-9, two support bottom plates 1-2 and two sliding support plates 1-4 are respectively provided, two support bottom plates 1-2 are respectively fixedly connected to the left and right sides of the lower end of the workbench 1-1, two sliding support plates 1-4 are respectively fixedly connected to the front and rear sides of the upper end of the workbench 1-1, two ends of the bottom plates 1-3 are respectively fixedly connected to the lower ends of the two support bottom plates 1-2, the switching sliding openings 1-6 are arranged on the supporting bottom plate 1-2 on the right side, the number of the vertical sliding grooves I1-5 is two, the two vertical sliding grooves I1-5 are respectively vertically arranged on the two supporting bottom plates 1-2, the number of the vertical sliding grooves II 1-7 is four, the four vertical sliding grooves II 1-7 are respectively vertically arranged on the left side and the right side of the two sliding supporting plates 1-4, the number of the transverse sliding grooves I1-8 and the number of the transverse sliding grooves II 1-9 are respectively two, the two transverse sliding grooves I1-8 are respectively and transversely arranged on the two sliding supporting plates 1-4, the two transverse sliding grooves II 1-9 are respectively and transversely arranged on the two sliding supporting plates 1-4, the transverse sliding grooves I1-8 are positioned at the upper ends of the transverse sliding grooves II 1-9, the shifting fork body 7-1-1 is connected in the switching sliding port 1-6 in a sliding mode, when the shifting fork body 7-1-1 moves towards the right side, the shifting fork body 7-1-1 can push the transverse moving side teeth 3-3 to be meshed with the transverse moving gear 3-2, and the vertical moving side teeth 4-3 are separated from the vertical moving gear 4-2; when the shifting fork body 7-1-1 moves to the left side, the shifting fork body 7-1-1 can push the vertical moving side teeth 4-3 to be meshed with the vertical moving gear 4-2, and the transverse moving side teeth 3-3 are separated from the transverse moving gear 3-2.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 18, and the second embodiment is further described in the embodiment, where the power mechanism 2 includes a power shaft 2-1, a rotating handle 2-2 and a power gear 2-3, the rotating handle 2-2 is fixedly connected to the right end of the power shaft 2-1, the power gear 2-3 is fixedly connected to the power shaft 2-1, and two ends of the power shaft 2-1 are respectively and rotatably connected to two supporting bottom plates 1-2.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-18, the lateral movement mechanism 3 includes a lateral movement screw rod 3-1, a lateral movement gear 3-2, a lateral movement side tooth 3-3, a lateral movement connecting key 3-4 and a lateral movement bracket 3-5, the lateral movement gear 3-2 is rotatably connected to the right end of the lateral movement screw rod 3-1, the lateral movement side tooth 3-3 is circumferentially connected to the right end of the lateral movement screw rod 3-1 through the lateral movement connecting key 3-4, the lateral movement side tooth 3-3 is located on the left side of the lateral movement gear 3-2, the lateral movement bracket 3-5 is L-shaped, the lower end of the lateral movement bracket 3-5 is provided with a transmission threaded hole i, the lateral movement bracket 3-5 is connected to the lateral movement screw rod 3-1 through a transmission thread, two ends of a transverse movement screw rod 3-1 are respectively and rotatably connected on two supporting bottom plates 1-2, a transverse movement gear 3-2 is meshed with a power gear 2-3, when the power gear 2-3 drives the transverse motion gear 3-2 to rotate, the transverse motion gear 3-2 is rotationally connected to the transverse motion screw rod 3-1, the transverse motion gear 3-2 can not drive the transverse motion screw rod 3-1 to rotate, when the shifting fork body 7-1-1 is pushed manually, the shifting fork body 7-1-1 pushes the transverse movement side teeth 3-3 to be meshed with the transverse movement gear 3-2, the transverse movement gear 3-2 can drive the transverse movement screw rod 3-1 to rotate, and the transverse movement bracket 3-5 moves on the transverse movement screw rod 3-1.

The fifth concrete implementation mode:

the fourth embodiment is described below with reference to fig. 1 to 18, and the fourth embodiment is further described in the present embodiment, where the vertical movement mechanism 4 includes a vertical movement worm 4-1, a vertical movement gear 4-2, vertical movement side teeth 4-3 and a vertical movement connecting key 4-4, the vertical movement gear 4-2 is rotatably connected to the right end of the vertical movement worm 4-1, the vertical movement side teeth 4-3 are circumferentially connected to the right end of the vertical movement worm 4-1 through the vertical movement connecting key 4-4, the vertical movement side teeth 4-3 are located on the right side of the vertical movement gear 4-2, two ends of the vertical movement worm 4-1 are respectively rotatably connected to the two supporting base plates 1-2, the vertical movement gear 4-2 is engaged with the power gear 2-3, when the power gear 2-3 drives the vertical movement gear 4-2 to rotate, the vertical movement gear 4-2 is rotationally connected to the vertical movement worm 4-1, the vertical movement gear 4-2 cannot drive the vertical movement gear 4-2 to rotate, when the shifting fork body 7-1-1 is manually pushed, the shifting fork body 7-1-1 pushes the vertical movement side teeth 4-3 to be meshed with the vertical movement gear 4-2, and the vertical movement gear 4-2 can drive the vertical movement worm 4-1 to rotate.

The sixth specific implementation mode:

the fifth embodiment is further described with reference to fig. 1-18, in which the transmission mechanism i 5 includes a transmission shaft i 5-1, a transmission worm gear 5-2, a transmission gear i 5-3, a transmission baffle 5-4 and a transmission bracket 5-5, the transmission worm gear 5-2 is fixedly connected to the middle end of the transmission shaft i 5-1, the transmission gear i 5-3 is fixedly connected to the lower end of the transmission shaft i 5-1, the lower end of the transmission bracket 5-5 is rotatably connected to the transmission worm gear 5-2, the upper end of the transmission bracket 5-5 is fixedly connected to the worktable 1-1, the transmission baffle 5-4 is fixedly connected to the transmission worm gear 5-2, the two ends of the transmission shaft i 5-1 are respectively rotatably connected to the worktable 1-1 and the base plate 1-3, the transmission worm wheel 5-2 is meshed with the vertical movement worm 4-1, the lower end of the transmission support 5-5 is rotatably connected to the transmission worm wheel 5-2 to limit the transmission worm wheel 5-2, the transmission baffle 5-4 is fixedly connected to the transmission worm wheel 5-2, the transmission baffle 5-4 limits the transmission support 5-5, and the transmission worm wheel 5-2 is in one-way self-locking due to worm and gear transmission when rotating.

The seventh embodiment:

the sixth embodiment is further described with reference to fig. 1-18, wherein the transmission mechanism ii 6 includes a transmission shaft ii 6-1, a transmission gear ii 6-2 and a vertical moving support 6-3, the transmission gear ii 6-2 is fixedly connected to the lower end of the transmission shaft ii 6-1, the transmission shaft ii 6-1 is provided with a transmission thread, the middle end of the vertical moving support 6-3 is provided with a transmission threaded hole ii, the vertical moving support 6-3 is connected to the transmission shaft ii 6-1 through the transmission thread, two ends of the transmission shaft ii 6-1 are respectively rotatably connected to the workbench 1-1 and the bottom plate 1-3, the transmission gear ii 6-2 is engaged with the transmission gear i 5-3, two ends of the vertical moving support 6-3 are respectively slidably connected in two vertical sliding grooves i 1-5, the transmission gear I5-3 drives the transmission gear II 6-2 to rotate, the transmission gear II 6-2 drives the transmission shaft II 6-1 to rotate, the vertical motion support 6-3 moves up and down on the transmission shaft II 6-1, and the vertical motion support 6-3 is unidirectionally self-locked due to screw rod transmission when moving up and down.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 18, and the seventh embodiment is further described in the present embodiment, where the switch fixed block 8 is M-shaped, the switch fixed block 8 is fixedly connected to the workbench 1-1, the triangular body 7-2-2 is in contact with the switch fixed block 8, and the switch fixed block 8 is M-shaped and can limit the triangular body 7-2-2.

The specific implementation method nine:

the following describes the present embodiment with reference to fig. 1 to 18, which further describes an eighth embodiment, wherein the horizontal moving mechanism 9 includes two horizontal moving screw rods 9-1, two horizontal moving sliders 9-2, two horizontal moving handles 9-3, and two moving blocks 9-4, two ends of the horizontal moving screw rods 9-2 are respectively and rotatably connected to the two horizontal moving sliders 9-2, a sliding groove 9-4-1 is vertically arranged on the moving block 9-4, a transmission threaded hole iii is arranged at a middle end of the moving block 9-4, the moving block 9-4 is connected to the horizontal moving screw rods 9-1 through a transmission thread, the horizontal moving handle 9-3 is fixedly connected to a rear end of the horizontal moving screw rods 9-1, the two horizontal moving sliders 9-2 are respectively and slidably connected to the two horizontal sliding grooves ii 1-9, when the horizontal moving handle 9-3 rotates, the horizontal moving handle 9-3 drives the horizontal moving screw rod 9-1 to rotate, the horizontal moving screw rod 9-1 rotates on the two horizontal moving slide blocks 9-2, the two horizontal moving slide blocks 9-2 are limited in the two transverse sliding grooves II 1-9, the moving block 9-4 slides on the horizontal moving screw rod 9-1, and the moving block 9-4 is in one-way self-locking due to screw rod transmission.

The detailed implementation mode is ten:

the following describes the present embodiment with reference to fig. 1 to 18, and the present embodiment further describes an embodiment nine, where two rectangular sliding grooves 10-1 are provided on the sliding support rod 10, two ends of the two sliding support rods 10 are respectively slidably connected in four vertical sliding grooves ii 1 to 7, two ends of the positioning 11 are respectively slidably connected in two rectangular sliding grooves 10-1, a middle end of the positioning 11 is slidably connected in a sliding groove 9-4-1, two ends of the sliding column 12 are respectively slidably connected in two transverse sliding grooves i 1 to 8, an upper end of the moving block 9-4 is slidably connected on the sliding column 12, and a right end of the sliding column 12 is fixedly connected to an upper end of the transverse moving support 3 to 5.

The invention relates to a frame welding and positioning structure, which has the working principle that:

when the welding machine is used, a frame to be welded is placed on the workbench 1-1, when the horizontal moving handle 9-3 is rotated, the horizontal moving handle 9-3 drives the horizontal moving screw rod 9-1 to rotate, the horizontal moving screw rod 9-1 rotates on the two horizontal moving sliding blocks 9-2, the two horizontal moving sliding blocks 9-2 are limited in the two transverse sliding grooves II 1-9, the moving block 9-4 slides on the horizontal moving screw rod 9-1, the moving block 9-4 is in one-way self-locking due to screw rod transmission, the moving block 9-4 pushes the positioning block 11 to horizontally move, and the positioning block 11 stops rotating when horizontally moving to a required position; the rotating handle 2-2 is rotated, the rotating handle 2-2 drives the power gear 2-3 to rotate, when the shifting fork body 7-1-1 is manually controlled to move towards the right side, the shifting fork body 7-1-1 can push the transverse moving side teeth 3-3 to be meshed with the transverse moving gear 3-2, and the vertical moving side teeth 4-3 are separated from the vertical moving gear 4-2; when the shifting fork body 7-1-1 moves to the left side, the shifting fork body 7-1-1 can push the vertical movement side teeth 4-3 to be meshed with the vertical movement gear 4-2, the transverse movement side teeth 3-3 are separated from the transverse movement gear 3-2, when the power gear 2-3 drives the transverse movement gear 3-2 to rotate, the transverse movement gear 3-2 is rotationally connected to the transverse movement screw rod 3-1, the transverse movement gear 3-2 can not drive the transverse movement screw rod 3-1 to rotate, when the shifting fork body 7-1-1 is manually pushed, the shifting fork body 7-1-1 pushes the transverse movement side teeth 3-3 to be meshed with the transverse movement gear 3-2, and the transverse movement gear 3-2 can drive the transverse movement screw rod 3-1 to rotate, the transverse moving bracket 3-5 moves on the transverse moving screw rod 3-1 to drive the sliding column 12 to slide on the whole bracket 1, and the sliding column 12 drives the positioning 11 to slide on the sliding support rod 10 to change the transverse position of the positioning 11; when the power gear 2-3 drives the vertical motion gear 4-2 to rotate, the vertical motion gear 4-2 is rotationally connected to the vertical motion worm 4-1, the vertical motion gear 4-2 cannot drive the vertical motion gear 4-2 to rotate, when the shifting fork body 7-1-1 is manually pushed to enable the shifting fork body 7-1-1 to push the vertical motion side teeth 4-3 to be meshed with the vertical motion gear 4-2, the vertical motion gear 4-2 can drive the vertical motion worm 4-1 to rotate, when the power gear 2-3 drives the vertical motion gear 4-2 to rotate, the vertical motion gear 4-2 is rotationally connected to the vertical motion worm 4-1, and the vertical motion gear 4-2 cannot drive the vertical motion gear 4-2 to rotate, when the shifting fork body 7-1-1 is pushed manually to enable the shifting fork body 7-1-1 to push the vertical movement side teeth 4-3 to be meshed with the vertical movement gear 4-2, the vertical movement gear 4-2 can drive the vertical movement worm 4-1 to rotate, the transmission worm wheel 5-2 is meshed with the vertical movement worm 4-1, the lower end of the transmission bracket 5-5 is rotatably connected to the transmission worm wheel 5-2 to limit the transmission worm wheel 5-2, the transmission baffle 5-4 is fixedly connected to the transmission worm wheel 5-2, the transmission baffle 5-4 limits the transmission bracket 5-5, the transmission worm wheel 5-2 is in one-way self-locking due to the transmission of the worm wheel and the worm when rotating, the transmission gear II 6-2 is meshed with the transmission gear I5-3, two ends of a vertical motion support 6-3 are respectively connected in two vertical sliding grooves I1-5 in a sliding mode, a transmission gear I5-3 drives a transmission gear II 6-2 to rotate, the transmission gear II 6-2 drives a transmission shaft II 6-1 to rotate, the vertical motion support 6-3 moves up and down on the transmission shaft II 6-1, the vertical motion support 6-3 drives a sliding support rod 10 to move up and down due to unidirectional self-locking of screw rod transmission when moving up and down, and the sliding support rod 10 drives a positioning 11 to slide in the sliding grooves 9-4-1 to change the up and down positions of the positioning.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a frame welding position structure, includes complete machine support (1), power unit (2), transverse movement mechanism (3), vertical motion (4), drive mechanism I (5), drive mechanism II (6), switching mechanism (7), switches fixed block (8), horizontal migration mechanism (9), slip bracing piece (10), location (11) and slip post (12), its characterized in that: the switching mechanism (7) comprises a shifting fork (7-1) and a switching sliding block (7-2), the shifting fork (7-1) comprises two shifting fork bodies (7-1-1), two pushing bodies (7-1-2) and two switching sliding holes (7-1-3), the two pushing bodies (7-1-2) are respectively welded on the left side and the right side of the lower end of the shifting fork body (7-1-1), the switching sliding holes (7-1-3) are arranged at the middle end of the shifting fork body (7-1-1), the switching sliding block (7-2) comprises a spring mounting column (7-2-1) and a triangular body (7-2-2), the lower end of the triangular body (7-2-2) is welded at the upper end of the spring mounting column (7-2-1), the spring mounting column (7-2-1) is connected in the switching sliding hole (7-1-3) in a sliding mode, a compression spring is sleeved on the spring mounting column (7-2-1) and located between the switching sliding hole (7-1-3) and the shifting fork body (7-1-1), the power mechanism (2), the transverse movement mechanism (3), the vertical movement mechanism (4), the transmission mechanism I (5) and the transmission mechanism II (6) are connected to the whole machine support (1) in a rotating mode, the power mechanism (2) is respectively in transmission engagement with the transverse movement mechanism (3) and the vertical movement mechanism (4) through gears, the vertical movement mechanism (4) is in transmission connection with the transmission mechanism I (5) through a worm gear, the transmission mechanism I (5) is in transmission engagement with the transmission mechanism II (6) through a gear, the switching fixed block (8) is fixedly connected to the whole machine support (1), the shifting fork body (7-1-1), the horizontal moving mechanism (9), the sliding support rods (10) and the sliding columns (12) are all connected to the whole machine support (1) in a sliding mode, the lower ends of the two pushing bodies (7-1-2) are respectively in clearance fit with the transverse moving mechanism (3) and the vertical moving mechanism (4), the upper end of the triangular body (7-2-2) is in contact with the switching fixed block (8), the number of the sliding support rods (10) is two, the two sliding support rods (10) are respectively and fixedly connected to the upper end of the transmission mechanism II (6), the two ends of the positioning (11) are respectively connected to the two sliding support rods (10) in a sliding mode, the positioning (11) is connected to the horizontal moving mechanism (9) in a sliding mode, and the middle end of the sliding columns (12) is connected to the horizontal moving, the right end of the sliding column (12) is fixedly connected with the upper end of the transverse movement mechanism (3);

the whole machine support (1) comprises a workbench (1-1), supporting bottom plates (1-2), bottom plates (1-3), sliding supporting plates (1-4), vertical sliding grooves I (1-5), switching sliding ports (1-6), vertical sliding grooves II (1-7), transverse sliding grooves I (1-8) and transverse sliding grooves II (1-9), wherein the number of the supporting bottom plates (1-2) and the number of the sliding supporting plates (1-4) are respectively two, the two supporting bottom plates (1-2) are respectively fixedly connected to the left side and the right side of the lower end of the workbench (1-1), the two sliding supporting plates (1-4) are respectively fixedly connected to the front side and the rear side of the upper end of the workbench (1-1), the two ends of the bottom plates (1-3) are respectively fixedly connected to the lower ends of the two supporting bottom plates (1-2), the switching sliding openings (1-6) are arranged on the supporting bottom plates (1-2) on the right side, two vertical sliding grooves I (1-5) are arranged, two vertical sliding grooves I (1-5) are respectively vertically arranged on the two supporting bottom plates (1-2), four vertical sliding grooves II (1-7) are arranged, four vertical sliding grooves II (1-7) are respectively vertically arranged on the left side and the right side of the two sliding supporting plates (1-4), two transverse sliding grooves I (1-8) and two transverse sliding grooves II (1-9) are respectively and horizontally arranged on the two sliding supporting plates (1-4), the transverse sliding groove I (1-8) is positioned at the upper end of the transverse sliding groove II (1-9), and the shifting fork body (7-1-1) is connected in the switching sliding port (1-6) in a sliding manner;

the transverse movement mechanism (3) comprises a transverse movement screw rod (3-1), a transverse movement gear (3-2), a transverse movement side tooth (3-3), a transverse movement connecting key (3-4) and a transverse movement bracket (3-5), the transverse movement gear (3-2) is rotatably connected to the right end of the transverse movement screw rod (3-1), the transverse movement side tooth (3-3) is circumferentially connected to the right end of the transverse movement screw rod (3-1) through the transverse movement connecting key (3-4), the transverse movement side tooth (3-3) is positioned on the left side of the transverse movement gear (3-2), the transverse movement bracket (3-5) is L-shaped, the lower end of the transverse movement bracket (3-5) is provided with a transmission threaded hole I, the transverse movement bracket (3-5) is connected to the transverse movement screw rod (3-1) through a transmission thread, two ends of the transverse movement screw rod (3-1) are respectively and rotatably connected to the two supporting bottom plates (1-2), and the transverse movement gear (3-2) is meshed with the power gear (2-3).

2. A frame welding positioning structure according to claim 1, wherein: the transmission mechanism I (5) comprises a transmission shaft I (5-1), a transmission worm wheel (5-2), a transmission gear I (5-3), a transmission baffle plate (5-4) and a transmission bracket (5-5), the transmission worm wheel (5-2) is fixedly connected to the middle end of the transmission shaft I (5-1), the transmission gear I (5-3) is fixedly connected to the lower end of the transmission shaft I (5-1), the lower end of the transmission support (5-5) is rotatably connected to the transmission worm wheel (5-2), the upper end of the transmission support (5-5) is fixedly connected to the workbench (1-1), the transmission baffle (5-4) is fixedly connected to the transmission worm wheel (5-2), and two ends of the transmission shaft I (5-1) are respectively rotatably connected to the workbench (1-1) and the bottom plate (1-3).

3. A frame welding positioning structure according to claim 2, wherein: the transmission mechanism II (6) comprises a transmission shaft II (6-1), the vertical movement support (6-3) is connected to the lower end of the transmission shaft II (6-1) in a fixed mode, transmission threads are arranged on the transmission shaft II (6-1), a transmission threaded hole II is formed in the middle end of the vertical movement support (6-3), the vertical movement support (6-3) is connected to the transmission shaft II (6-1) through the transmission threads, two ends of the transmission shaft II (6-1) are connected to the workbench (1-1) and the bottom plate (1-3) in a rotating mode respectively, the transmission gear II (6-2) is meshed with the transmission gear I (5-3), and two ends of the vertical movement support (6-3) are connected into the two vertical sliding grooves I (1-5) in a sliding mode respectively.