CN214393243U - Linear electric motor binary channels high-speed longmen processing location structure - Google Patents

Abstract

The utility model relates to a high-speed longmen processing location structure of linear electric motor binary channels, the reciprocating impact tunnel drilling machine comprises a machine body, the bottom of fuselage is connected with the supporting legs, the inboard bottom of fuselage is connected with the hydraulic stem, and the top of hydraulic stem is connected with the workstation, the top of workstation is connected with the balladeur train, and the top of balladeur train is provided with the slide, and one side of slide is connected with the fixed block, the top of fixed block is connected with the spring, and the top of spring is connected with the L shape pole that runs through the fixed block, one side of workstation is provided with a plurality of dead levers, and just constitutes block structure with L shape pole between the dead lever. The utility model discloses a set up positioning mechanism and can carry out accurate positioning to the article, and can need not the relocation by quick accurate angle regulation in needs angle regulation, labour saving and time saving, the pilot pin through setting can accomplish the location through the position with the thread depth fine setting article of thread groove, need not to take up the article through the pivot that sets up and adjust.

Description

Linear electric motor binary channels high-speed longmen processing location structure

Technical Field

The utility model relates to a high-speed longmen processing location structure of linear electric motor binary channels belongs to longmen processing technology field.

Background

The planer type milling machine consists of portal frame, machine body bench and electric control system, the portal frame consists of upright columns and top beams, and has cross beam in the middle for elevating motion along the guide rails of the two upright columns, and the cross beam has one or two milling heads with vertical main shafts for transverse motion along the guide rails of the cross beam.

The planer type milling machine needs to position objects when working, but the positioning effect of some planer type milling machines is not good, and the objects are easy to deviate to cause errors when working, and most planer type milling machines need to be moved to be repositioned when angles are required to be adjusted.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem who solves overcomes current defect, provides a linear electric motor binary channels high-speed longmen processing location structure, has the location effect good to the article, and angle regulation that moreover can be accurate fast need not the relocation, can effectively solve the problem in the background art.

In order to solve the technical problem, the utility model provides a following technical scheme:

a linear motor double-channel high-speed gantry machining and positioning structure comprises a machine body, wherein the bottom end of the machine body is connected with supporting legs, the bottom end of the inner side of the machine body is connected with a hydraulic rod, the top end of the hydraulic rod is connected with a workbench, the top end of the workbench is connected with a sliding frame, the top end of the sliding frame is provided with a sliding plate, one side of the sliding plate is connected with a fixed block, the top end of the fixed block is connected with a spring, the top end of the spring is connected with an L-shaped rod penetrating through the fixed block, one side of the workbench is provided with a plurality of fixed rods, the fixed rods and the L-shaped rod just form a clamping structure, a positioning mechanism is arranged inside the sliding plate, stand columns are arranged at two ends of the inner side of the machine body, a cross beam is connected between the stand columns, a supporting plate is arranged at the bottom end of the cross beam, an inner groove is formed inside the supporting plate, and the bottom end of the inner groove is provided with a motor, and the output end of the motor is connected with a milling cutter penetrating through the bottom end of the supporting plate, one side of the machine body is provided with an operation panel.

Further, positioning mechanism includes the recess that sets up on the slide top, and the bottom of recess is provided with the pivot, the outside of slide is provided with the thread groove, and the inside of thread groove all is provided with the pilot pin.

Further, the hydraulic rod and the machine body form an integrated structure, and the workbench and the machine body form a lifting structure through the hydraulic rod.

Further, the shape of the sliding frame is of an inverted trapezoidal structure, the sliding plate and the workbench form a clamping structure through the sliding frame, and the L-shaped rod and the fixed block form an elastic structure through a spring.

Further, the rotating shaft is arranged at the center of the groove and is rotatably connected with the sliding plate.

Further, the number of the thread grooves is 4, and the thread grooves are symmetrical with respect to a diagonal of the slide plate.

The utility model discloses a technological effect and advantage:

1. the utility model can accurately position the object by arranging the positioning mechanism, can quickly and accurately adjust the angle without repositioning when the angle is required to be adjusted, is time-saving and labor-saving, can finish positioning by finely adjusting the position of the object through the set positioning bolt according to the depth of the thread groove, and does not need to take up the object for adjustment through the set rotating shaft;

2. the utility model discloses a dead lever that sets up and L shape pole constitute block structure can fix the slide on the balladeur train, removes the block of L shape pole and dead lever through pressing L shape pole when needs slide, fixes a position under sliding slide to another milling cutter through the balladeur train, is the more stable slip of trapezoidal structure messenger's slide through the shape of balladeur train, can not rock.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a side view of the carriage to sled connection of the present invention;

fig. 3 is a top view of the middle positioning mechanism of the present invention.

Reference numbers in the figures: 1. a body; 2. supporting legs; 3. a hydraulic lever; 4. a work table; 5. a carriage; 6. a slide plate; 7. a fixed block; 8. a spring; 9. an L-shaped rod; 10. fixing the rod; 11. a positioning mechanism; 1101. a groove; 1102. a rotating shaft; 1103. a thread groove; 1104. positioning bolts; 12. a column; 13. a cross beam; 14. a support plate; 15. an inner tank; 16. a motor; 17. milling cutters; 18. and a control panel.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

As shown in fig. 1-3, a linear motor double-channel high-speed gantry machining and positioning structure comprises a machine body 1, wherein the bottom end of the machine body 1 is connected with supporting legs 2, the bottom end of the inner side of the machine body 1 is connected with a hydraulic rod 3, the top end of the hydraulic rod 3 is connected with a workbench 4, the top end of the workbench 4 is connected with a carriage 5, the top end of the carriage 5 is provided with a sliding plate 6, one side of the sliding plate 6 is connected with a fixed block 7, the top end of the fixed block 7 is connected with a spring 8, the top end of the spring 8 is connected with an L-shaped rod 9 penetrating through the fixed block 7, one side of the workbench 4 is provided with a plurality of fixing rods 10, the fixing rods 10 just form a clamping structure with the L-shaped rod 9, a positioning mechanism 11 is arranged inside the sliding plate 6, stand columns 12 are arranged at the two ends of the inner side of the machine body 1, a cross beam 13 is connected between the stand columns 12, a supporting plate 14 is arranged at the bottom end of the cross beam 13, and an inner groove 15 is arranged inside the supporting plate 14, the bottom of inside groove 15 is provided with motor 16, and the output of motor 16 is connected with the milling cutter 17 that runs through the layer board 14 bottom, and one side of fuselage 1 is provided with control panel 18.

As shown in fig. 1 and fig. 3, the positioning mechanism 11 of this embodiment includes a groove 1101 disposed at the top end of the sliding plate 6, a rotating shaft 1102 is disposed at the bottom end of the groove 1101, a thread groove 1103 is disposed at the outer side of the sliding plate 6, and positioning bolts 1104 are disposed inside the thread groove 1103, so that the object can be accurately positioned by the positioning mechanism 11, and the angle can be quickly and accurately adjusted without repositioning.

As shown in fig. 1, the hydraulic rod 3 of the present example is integrated with the machine body 1, the table 4 is configured to be lifted up and down with respect to the machine body 1 by the hydraulic rod 3, and the table 4 is lifted up to a position below the milling cutter 17 by lifting up the hydraulic rod 3.

As shown in fig. 1 and 2, the carriage 5 of the present embodiment has an inverted trapezoidal shape, the slide plate 6 has an engagement structure with the table 4 via the carriage 5, the L-shaped rod 9 has an elastic structure with the fixed block 7 via the spring 8, the engagement between the L-shaped rod 9 and the fixed rod 10 is released by pressing the L-shaped rod 9, the slide plate 6 is positioned right under another milling cutter 17 by sliding the carriage 5, and the slide plate 6 slides more stably without wobbling by the inverted trapezoidal shape of the carriage 5.

As shown in FIG. 3, the rotating shaft 1102 of the present embodiment is disposed at the center of the groove 1101, and the rotating shaft 1102 is rotatably connected with the sliding plate 6, so that the angle can be adjusted quickly and accurately through the disposed rotating shaft 1102 without repositioning, which is time-saving and labor-saving.

As shown in fig. 1 and 3, the number of the thread groove 1103 in this example is 4, and the thread groove 1103 is symmetrical diagonally with respect to the slide 6, so that the fine adjustment of the accurate positioning can be performed by the threaded depth of the positioning pin 1104 when the table is raised below the milling cutter 17, and the fine adjustment can be performed in the same manner when the slide 6 is slid right below another milling cutter 17 by the carriage 5.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

The utility model discloses the theory of operation: in use, a worker first marks the surface of an object, then places the object on the shaft 1102 inside the sled 6, the object is fixed by the positioning bolt 1104, the worktable 4 is lifted to the lower part of the milling cutter 17 by lifting the hydraulic rod 3, the positioning is carried out by fine adjustment of the positioning bolt 1104, the hydraulic rod 3 is restored after the positioning is finished, when the object is processed by the operation panel and another milling cutter 17 is needed, the L-shaped rod 9 is pressed to release the engagement between the L-shaped rod 9 and the fixed rod 10, the sliding plate 6 is slid to the position right below the other milling cutter 17 through the sliding frame 5, the sliding plate 6 slides more stably through the shape of the sliding frame 5 in an inverted trapezoidal structure without shaking, fine adjustment positioning is carried out by the same method, when the angle is required to be adjusted, the angle can be adjusted quickly and accurately through the arranged rotating shaft 1102 without repositioning, and time and labor are saved.

The above is the preferred embodiment of the present invention, and the technical personnel in the field of the present invention can also change and modify the above embodiment, therefore, the present invention is not limited to the above specific embodiment, and any obvious improvement, replacement or modification made by the technical personnel in the field on the basis of the present invention all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a linear electric motor binary channels high-speed longmen processing location structure, includes fuselage (1), its characterized in that: the bottom of the machine body (1) is connected with supporting legs (2), the bottom of the inner side of the machine body (1) is connected with a hydraulic rod (3), the top end of the hydraulic rod (3) is connected with a workbench (4), the top end of the workbench (4) is connected with a sliding frame (5), the top end of the sliding frame (5) is provided with a sliding plate (6), one side of the sliding plate (6) is connected with a fixed block (7), the top end of the fixed block (7) is connected with a spring (8), the top end of the spring (8) is connected with an L-shaped rod (9) penetrating through the fixed block (7), one side of the workbench (4) is provided with a plurality of fixed rods (10), the fixed rods (10) just form a clamping structure with the L-shaped rod (9), the inside of the sliding plate (6) is provided with a positioning mechanism (11), and the two ends of the inner side of the machine body (1) are provided with stand columns (12), and be connected with crossbeam (13) between stand (12), the bottom of crossbeam (13) is provided with layer board (14), and the inside of layer board (14) has seted up inside groove (15), the bottom of inside groove (15) is provided with motor (16), and the output of motor (16) is connected with milling cutter (17) that run through layer board (14) bottom, one side of fuselage (1) is provided with controls panel (18).

2. The linear motor double-channel high-speed gantry machining and positioning structure of claim 1 is characterized in that: positioning mechanism (11) include setting up recess (1101) on slide (6) top, and the bottom of recess (1101) is provided with pivot (1102), the outside of slide (6) is provided with thread groove (1103), and the inside of thread groove (1103) all is provided with pilot pin (1104).

3. The linear motor double-channel high-speed gantry machining and positioning structure of claim 1 is characterized in that: the hydraulic rod (3) and the machine body (1) form an integrated structure, and the workbench (4) and the machine body (1) form a lifting structure through the hydraulic rod (3).

4. The linear motor double-channel high-speed gantry machining and positioning structure of claim 1 is characterized in that: the shape of balladeur train (5) is the structure of falling the trapezium, slide (6) pass through balladeur train (5) and workstation (4) constitution block structure, L shape pole (9) pass through spring (8) and constitute elastic construction with fixed block (7).

5. The linear motor double-channel high-speed gantry machining and positioning structure of claim 2 is characterized in that: the rotating shaft (1102) is arranged at the center of the groove (1101), and the rotating shaft (1102) is rotatably connected with the sliding plate (6).

6. The linear motor double-channel high-speed gantry machining and positioning structure of claim 2 is characterized in that: the number of the thread grooves (1103) is 4, and the thread grooves (1103) are symmetrical with respect to the diagonal of the slider (6).

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