CN216503429U - Mechanical intelligent machine tool guide rail - Google Patents

Abstract

The utility model discloses a mechanical intelligent machine tool guide rail, which comprises a mounting plate, a guide rail and a guide rail, wherein a horizontal moving structure is mounted on the mounting plate, and a vertical moving structure is mounted on the horizontal moving structure; the horizontal moving structure comprises: the device comprises two pairs of horizontal support bearings with the same structure, a pair of horizontal moving threaded rods with the same structure, a pair of horizontal moving driving machines with the same structure and a horizontal moving auxiliary fixing component; the utility model relates to the technical field of guide rail fixing, wherein two pairs of horizontal moving slide blocks and two pairs of vertical moving slide blocks are fixed through the matching of a vertical moving auxiliary fixing assembly and a horizontal moving auxiliary fixing assembly, so that the phenomenon that the two pairs of horizontal moving slide blocks and the two pairs of vertical moving slide blocks shake due to vibration when equipment is transported is avoided, and the two pairs of horizontal moving slide blocks and the two pairs of vertical moving slide blocks are extruded and fixed through four pairs of horizontal positioning pins and four pairs of vertical positioning pins, so that the vibration displacement is avoided.

Description

Mechanical intelligent machine tool guide rail

Technical Field

The utility model relates to the technical field of guide rail fixing, in particular to a mechanical intelligent machine tool guide rail.

Background

The guide rail is an important part for supporting and guiding sliding of a machine tool in a machining process, the guide accuracy of the guide rail directly influences the machining accuracy of a workpiece, at present, the guide rail of the machine tool is supported excessively by right-angle sides and triangular sides, when large parts are machined, the guide rail is subjected to gravity to cause stress concentration, vibration is generated greatly, and positioning accuracy between the guide rail and a guide sliding block is prone to being caused to be problems, so that the machining accuracy is influenced.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a mechanical intelligent machine tool guide rail, which solves the problem that the existing guide rail is easy to have errors due to shaking in the machining process.

In order to achieve the purpose, the utility model is realized by the following technical scheme: the mechanical intelligent machine tool guide rail comprises a mounting plate, a guide rail body and a guide rail body, wherein a horizontal moving structure is mounted on the mounting plate, and a vertical moving structure is mounted on the horizontal moving structure;

the horizontal moving structure comprises: the device comprises two pairs of horizontal support bearings with the same structure, a pair of horizontal moving threaded rods with the same structure, a pair of horizontal moving driving machines with the same structure and a horizontal moving auxiliary fixing component;

the mounting panel is provided with a pair of horizontal movement grooves with the same structure, the two pairs of horizontal support bearings are respectively installed in the pair of horizontal movement grooves, the horizontal movement threaded rod is respectively installed in the two pairs of horizontal support bearings, the horizontal movement driving machine is respectively installed in the pair of horizontal movement grooves, the horizontal movement driving machine is connected to the pair of horizontal movement threaded rod respectively, and the horizontal movement auxiliary fixing component is respectively installed on the pair of horizontal movement threaded rod.

Preferably, the horizontal movement auxiliary fixing assembly comprises: the device comprises two pairs of horizontal moving slide blocks with the same structure, four pairs of horizontal positioning pins with the same structure, two pairs of horizontal springs with the same structure, two pairs of horizontal guide blocks with the same structure, two pairs of horizontal button pressure springs with the same structure and two pairs of horizontal electromagnets with the same structure;

the two pairs of horizontal moving sliding blocks are respectively arranged on the two pairs of horizontal moving threaded rods, two pairs of horizontal positioning grooves with the same structure are respectively formed in the two pairs of horizontal moving sliding blocks, four pairs of horizontal positioning pins are respectively inserted on the two pairs of horizontal moving sliding blocks, four pairs of horizontal springs are respectively arranged on the four pairs of horizontal positioning pins, two pairs of horizontal guide blocks are respectively arranged in the two pairs of horizontal positioning grooves, two pairs of horizontal button pressure springs are respectively arranged in the two pairs of horizontal positioning grooves, the two pairs of horizontal button pressure springs are connected to the two pairs of horizontal guide blocks, and two pairs of horizontal electromagnets are respectively arranged on the two pairs of horizontal moving sliding blocks.

Preferably, the vertical moving structure comprises: the device comprises a pair of U-shaped vertical moving plates with the same structure, two pairs of vertical supporting bearings with the same structure, a pair of vertical moving threaded rods with the same structure, a pair of vertical moving driving machines with the same structure and a vertical moving auxiliary fixing component;

the two pairs of vertical support bearings are respectively installed in the pair of U-shaped vertical moving plates, the pair of vertical moving threaded rods are respectively installed on the two pairs of vertical support bearings, the pair of vertical moving drivers are respectively installed in the pair of U-shaped vertical moving plates, the driving ends of the pair of vertical moving drivers are respectively connected to the pair of vertical moving threaded rods, and the vertical moving auxiliary fixing assemblies are respectively installed on the pair of vertical moving threaded rods.

Preferably, the vertical movement auxiliary fixing assembly comprises: the device comprises two pairs of vertical moving slide blocks with the same structure, four pairs of vertical positioning pins with the same structure, two pairs of vertical springs with the same structure, two pairs of vertical guide blocks with the same structure, two pairs of vertical button compression springs with the same structure and two pairs of vertical electromagnets with the same structure;

the two pairs of vertical moving sliding blocks are respectively arranged on the pair of vertical moving threaded rods, two pairs of vertical positioning grooves with the same structure are respectively arranged in the two pairs of vertical moving sliding blocks, four pairs of vertical positioning pins are respectively inserted on the two pairs of vertical moving sliding blocks, four pairs of vertical springs are respectively arranged on the four pairs of vertical positioning pins, two pairs of vertical guide blocks are respectively arranged in the two pairs of vertical positioning grooves, two pairs of vertical button pressure springs are respectively arranged in the two pairs of vertical positioning grooves, the two pairs of vertical button pressure springs are connected on the two pairs of vertical guide blocks, and two pairs of vertical electromagnets are respectively arranged on the two pairs of vertical moving sliding blocks.

Preferably, a pair of auxiliary supporting moving grooves with the same structure are respectively formed on the pair of horizontal moving grooves and the pair of U-shaped vertical moving plates, and a pair of auxiliary supporting moving sliders with the same structure are respectively formed on the pair of vertical moving sliders and the pair of horizontal moving sliders.

Preferably, a plurality of infrared measuring instruments with the same structure are respectively arranged on the pair of vertical moving sliding blocks and the pair of horizontal moving sliding blocks.

Advantageous effects

The utility model provides a mechanical intelligent machine tool guide rail. The method has the following beneficial effects: this intelligent lathe guide rail of machinery, through the supplementary fixed subassembly of vertical migration and the supplementary fixed subassembly of horizontal migration, make two pairs of horizontal migration sliders and two pairs of vertical migration sliders fixed, thereby avoided because of equipment when the transportation, two pairs of horizontal migration sliders and two pairs of vertical migration sliders produce the phenomenon of rocking because of vibrations, through the extrusion of four pairs of horizontal locating pins and four pairs of vertical locating pins, make two pairs of horizontal migration sliders and two pairs of vertical migration sliders extrusion fixed vibrations displacement of having avoided.

Drawings

Fig. 1 is a schematic front sectional view of a guide rail of a mechanical intelligent machine tool according to the present invention.

FIG. 2 is a schematic cross-sectional side view of a guide rail of a mechanical intelligent machine tool according to the present invention.

Fig. 3 is a schematic view of the vertical movement structure of the guide rail of the mechanical intelligent machine tool.

In the figure: 1-mounting a plate; 2-horizontal support bearings; 3-horizontally moving the threaded rod; 4-a horizontally moving driver; 5-horizontally moving the groove; 6-horizontally moving the sliding block; 7-horizontal positioning pins; 8-horizontal spring; 9-horizontal guide block; 10-horizontal button compression spring; 11-horizontal electromagnet; 12-a horizontal positioning groove; 13-U-shaped vertical moving plates; 14-vertical support bearings; 15-moving the threaded rod vertically; 16-a vertical motion drive; 17-vertically moving the slider; 18-vertical positioning pins; 19-vertical spring; 20-a vertical guide block; 21-vertical button compression spring; 22-vertical electromagnet; 23-vertical positioning grooves; 24-auxiliary support moving groove; 25-auxiliary support moving slide block; 26-infrared ray measuring instrument.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

All the electrical parts in the present case are connected with the power supply adapted to the electrical parts through a wire, and an appropriate controller and an appropriate encoder should be selected according to the actual situation to meet the control requirement, and the specific connection and control sequence should be determined.

Example (b): as can be seen from fig. 1-3, a horizontal moving structure is mounted on the mounting plate 1, and a vertical moving structure is mounted on the horizontal moving structure; the horizontal moving structure comprises: the device comprises two pairs of horizontal supporting bearings 2 with the same structure, a pair of horizontal moving threaded rods 3 with the same structure, a pair of horizontal moving driving machines 4 with the same structure and a horizontal moving auxiliary fixing component; a pair of horizontal moving grooves 5 with the same structure is formed in the mounting plate 1, two pairs of horizontal supporting bearings 2 are respectively mounted in the pair of horizontal moving grooves 5, a pair of horizontal moving threaded rods 3 are respectively mounted on the two pairs of horizontal supporting bearings 2, a pair of horizontal moving drivers 4 are respectively mounted in the pair of horizontal moving grooves 5, the driving ends of the pair of horizontal moving drivers 4 are respectively connected to the pair of horizontal moving threaded rods 3, and the horizontal moving auxiliary fixing components are respectively mounted on the pair of horizontal moving threaded rods 3; the horizontal movement auxiliary fixing component comprises: the device comprises two pairs of horizontal moving slide blocks 6 with the same structure, four pairs of horizontal positioning pins 7 with the same structure, two pairs of horizontal springs 8 with the same structure, two pairs of horizontal guide blocks 9 with the same structure, two pairs of horizontal button compression springs 10 with the same structure and two pairs of horizontal electromagnets 11 with the same structure; two pairs of horizontal moving sliding blocks 6 are respectively arranged on one pair of horizontal moving threaded rods 3, two pairs of horizontal positioning grooves 12 with the same structure are respectively arranged in the two pairs of horizontal moving sliding blocks 6, four pairs of horizontal positioning pins 7 are respectively inserted in the two pairs of horizontal moving sliding blocks 6, four pairs of horizontal positioning pins 7 are respectively arranged on the two pairs of horizontal springs 8, two pairs of horizontal guide blocks 9 are respectively arranged in the two pairs of horizontal positioning grooves 12, two pairs of horizontal button pressure springs 10 are respectively arranged in the two pairs of horizontal positioning grooves 12, the two pairs of horizontal button pressure springs 10 are connected to the two pairs of horizontal guide blocks 9, and two pairs of horizontal electromagnets 11 are respectively arranged on the two pairs of horizontal moving sliding blocks 6; the vertical moving structure comprises: a pair of U-shaped vertical moving plates 13 with the same structure, two pairs of vertical supporting bearings 14 with the same structure, a pair of vertical moving threaded rods 15 with the same structure, a pair of vertical moving drivers 16 with the same structure and a vertical moving auxiliary fixing component; two pairs of the vertical support bearings 14 are respectively installed in the pair of the U-shaped vertical moving plates 13, a pair of the vertical moving threaded rods 15 are respectively installed on the two pairs of the vertical support bearings 14, a pair of the vertical moving drivers 16 are respectively installed in the pair of the U-shaped vertical moving plates 13, the driving ends of the pair of the vertical moving drivers 16 are respectively connected to the pair of the vertical moving threaded rods 15, and the vertical moving auxiliary fixing components are respectively installed on the pair of the vertical moving threaded rods 15; the vertical movement auxiliary fixing component comprises: two pairs of vertical moving slide blocks 17 with the same structure, four pairs of vertical positioning pins 18 with the same structure, two pairs of vertical springs 19 with the same structure, two pairs of vertical guide blocks 20 with the same structure, two pairs of vertical button compression springs 21 with the same structure and two pairs of vertical electromagnets 22 with the same structure; the two pairs of vertical moving sliding blocks 17 are respectively arranged on the pair of vertical moving threaded rods 15, two pairs of vertical positioning grooves 23 with the same structure are respectively arranged in the two pairs of vertical moving sliding blocks 17, four pairs of vertical positioning pins 18 are respectively inserted in the two pairs of vertical moving sliding blocks 17, four pairs of vertical springs 19 are respectively arranged on the four pairs of vertical positioning pins 18, two pairs of vertical guide blocks 20 are respectively arranged in the two pairs of vertical positioning grooves 23, two pairs of vertical button pressure springs 21 are respectively arranged in the two pairs of vertical positioning grooves 23, the two pairs of vertical button pressure springs 21 are connected to the two pairs of vertical guide blocks 20, and two pairs of vertical electromagnets 22 are respectively arranged on the two pairs of vertical moving sliding blocks 17; a pair of auxiliary supporting moving grooves 24 with the same structure are respectively formed on the pair of horizontal moving grooves 5 and the pair of U-shaped vertical moving plates 13, and a pair of auxiliary supporting moving sliders 25 with the same structure are respectively formed on the pair of vertical moving sliders 17 and the pair of horizontal moving sliders 6; a plurality of infrared measuring instruments 26 with the same structure are respectively arranged on the pair of vertical moving sliding blocks 17 and the pair of horizontal moving sliding blocks 6.

From the above, it follows: through a pair of horizontal moving grooves 5 in the mounting plate 1, the horizontal electromagnets 11 in the horizontal positioning grooves 12 in the horizontal moving sliding blocks 6 are powered off, so that the horizontal guide blocks 9 which are attracted by the horizontal electromagnets 11 through magnetism are extruded downwards by the horizontal button pressure springs 10 on the horizontal guide blocks, so that the horizontal button pressure springs 10 extrude and contract the horizontal positioning pins 7 into the horizontal positioning grooves 12, then a pair of horizontal moving drivers 4 operate, the horizontal moving threaded rods 3 on the driving ends are respectively driven to rotate by the horizontal moving drivers 4, the horizontal moving threaded rods 3 drive the two pairs of horizontal moving sliding blocks 6 on the horizontal moving threaded rods to rotate, so that the two pairs of horizontal moving sliding blocks 6 respectively horizontally move on the horizontal moving threaded rods 3, when the two pairs of horizontal moving sliding blocks 6 reach a certain distance, the horizontal electromagnets 11 are charged to generate electromagnetism, the horizontal guide block 9 is absorbed on the horizontal electromagnet 11, so that the pair of horizontal positioning pins 7 on the horizontal guide block 9 are not extruded by the horizontal guide block 9, the horizontal springs 8 on the pair of horizontal positioning pins 7 extrude the pair of horizontal positioning pins 7 into the horizontal positioning grooves 12, and the pair of horizontal positioning pins 7 are extruded on the horizontal moving grooves 5, so that the horizontal moving slide block 6 is extruded and fixed on the horizontal moving grooves 5, meanwhile, a pair of vertical moving drivers 16 in a pair of U-shaped vertical moving blocks 13 on the two pairs of horizontal moving slide blocks 6 operate, so that the pair of vertical moving drivers 16 drive a pair of vertical moving threaded rods 15 on a driving end to rotate, the pair of vertical moving threaded rods 15 respectively drive the two pairs of vertical moving slide blocks 17 on the vertical moving threaded rods to vertically move on the vertical moving threaded rods, and after the two pairs of vertical moving slide blocks 17 reach a certain position, by turning off the two pairs of vertical electromagnets 22, the two pairs of vertical guide blocks 20 are respectively pressed upward by the two pairs of vertical button compression springs 21, so that the four pairs of vertical positioning pins 18 are pressed out of the vertical positioning grooves 23 in the vertical moving slide block 17 by the two pairs of vertical springs 19, and the four pairs of vertical positioning pins 18 are pressed out of the vertical positioning grooves 23, so that the four pairs of vertical positioning pins 18 respectively press the one pair of U-shaped vertical moving plates 13.

Preferably, the horizontal movement auxiliary fixing assembly further comprises: the device comprises two pairs of horizontal moving slide blocks 6 with the same structure, four pairs of horizontal positioning pins 7 with the same structure, two pairs of horizontal springs 8 with the same structure, two pairs of horizontal guide blocks 9 with the same structure, two pairs of horizontal button compression springs 10 with the same structure and two pairs of horizontal electromagnets 11 with the same structure;

the two pairs of horizontal moving sliding blocks 6 are respectively installed on the pair of horizontal moving threaded rods 3, two pairs of horizontal positioning grooves 12 with the same structure are respectively formed in the two pairs of horizontal moving sliding blocks 6, four pairs of horizontal positioning pins 7 are respectively inserted into the two pairs of horizontal moving sliding blocks 6, four pairs of horizontal positioning pins 7 are respectively installed on the two pairs of horizontal springs 8, two pairs of horizontal guide blocks 9 are respectively installed in the two pairs of horizontal positioning grooves 12, two pairs of horizontal button pressure springs 10 are respectively installed in the two pairs of horizontal positioning grooves 12, the two pairs of horizontal button pressure springs 10 are connected to the two pairs of horizontal guide blocks 9, and two pairs of horizontal electromagnets 11 are respectively installed on the two pairs of horizontal moving sliding blocks 6.

Preferably, the vertical moving structure further comprises: a pair of U-shaped vertical moving plates 13 with the same structure, two pairs of vertical supporting bearings 14 with the same structure, a pair of vertical moving threaded rods 15 with the same structure, a pair of vertical moving drivers 16 with the same structure and a vertical moving auxiliary fixing component;

the two pairs of vertical support bearings 14 are respectively installed in the pair of U-shaped vertical moving plates 13, the pair of vertical moving threaded rods 15 are respectively installed on the two pairs of vertical support bearings 14, the pair of vertical moving drivers 16 are respectively installed in the pair of U-shaped vertical moving plates 13, the driving ends of the pair of vertical moving drivers 16 are respectively connected to the pair of vertical moving threaded rods 15, and the vertical moving auxiliary fixing components are respectively installed on the pair of vertical moving threaded rods 15.

Preferably, the vertical movement auxiliary fixing assembly further comprises: two pairs of vertical moving slide blocks 17 with the same structure, four pairs of vertical positioning pins 18 with the same structure, two pairs of vertical springs 19 with the same structure, two pairs of vertical guide blocks 20 with the same structure, two pairs of vertical button compression springs 21 with the same structure and two pairs of vertical electromagnets 22 with the same structure;

the two pairs of vertical moving sliding blocks 17 are respectively arranged on the pair of vertical moving threaded rods 15, two pairs of vertical positioning grooves 23 with the same structure are respectively arranged in the two pairs of vertical moving sliding blocks 17, four pairs of vertical positioning pins 18 are respectively inserted in the two pairs of vertical moving sliding blocks 17, four pairs of vertical springs 19 are respectively arranged on the four pairs of vertical positioning pins 18, two pairs of vertical guide blocks 20 are respectively arranged in the two pairs of vertical positioning grooves 23, two pairs of vertical button pressure springs 21 are respectively arranged in the two pairs of vertical positioning grooves 23, the two pairs of vertical button pressure springs 21 are connected to the two pairs of vertical guide blocks 20, and two pairs of vertical electromagnets 22 are respectively arranged on the two pairs of vertical moving sliding blocks 17.

Preferably, a pair of auxiliary supporting and moving grooves 24 having the same structure are formed in the pair of horizontal moving grooves 5 and the pair of U-shaped vertical moving plates 13, respectively, and a pair of auxiliary supporting and moving sliders 25 having the same structure are formed in the pair of vertical moving sliders 17 and the pair of horizontal moving sliders 6, respectively.

Preferably, a plurality of infrared measuring instruments 26 having the same structure are respectively disposed on the pair of vertical moving sliders 17 and the pair of horizontal moving sliders 6.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The mechanical intelligent machine tool guide rail comprises a mounting plate (1), and is characterized in that a horizontal moving structure is mounted on the mounting plate (1), and a vertical moving structure is mounted on the horizontal moving structure;

the horizontal moving structure comprises: the device comprises two pairs of horizontal supporting bearings (2) with the same structure, a pair of horizontal moving threaded rods (3) with the same structure, a pair of horizontal moving driving machines (4) with the same structure and a horizontal moving auxiliary fixing component;

the mounting panel (1) is last to have seted up a pair of horizontal migration recess (5) that the structure is the same, two pairs horizontal support bearing (2) are installed respectively in a pair of in horizontal migration recess (5), a pair of horizontal migration threaded rod (3) are installed respectively in two pairs on horizontal support bearing (2), a pair of horizontal migration driving machine (4) are installed respectively in a pair of in horizontal migration recess (5), and a pair of horizontal migration driving machine (4) drive end is connected respectively in a pair on horizontal migration threaded rod (3), the supplementary fixed subassembly of horizontal migration install respectively in a pair on horizontal migration threaded rod (3).

2. The machine tool guide rail of claim 1, wherein the horizontal movement auxiliary fixing component comprises: the device comprises two pairs of horizontal moving slide blocks (6) with the same structure, four pairs of horizontal positioning pins (7) with the same structure, two pairs of horizontal springs (8) with the same structure, two pairs of horizontal guide blocks (9) with the same structure, two pairs of horizontal button compression springs (10) with the same structure and two pairs of horizontal electromagnets (11) with the same structure;

two pairs of horizontal moving sliding blocks (6) are respectively arranged on one pair of horizontal moving threaded rods (3), two pairs of horizontal positioning grooves (12) with the same structure are respectively arranged in the two pairs of horizontal moving sliding blocks (6), four pairs of horizontal positioning pins (7) are respectively inserted on the two pairs of horizontal moving sliding blocks (6), four pairs of horizontal springs (8) are respectively arranged on the four pairs of horizontal positioning pins (7), two pairs of horizontal guide blocks (9) are respectively arranged in the two pairs of horizontal positioning grooves (12), two pairs of horizontal button pressure springs (10) are respectively arranged in the two pairs of horizontal positioning grooves (12), and the two pairs of horizontal button compression springs (10) are connected to the two pairs of horizontal guide blocks (9), and the two pairs of horizontal electromagnets (11) are respectively arranged on the two pairs of horizontal moving sliding blocks (6).

3. The machine tool guide rail of claim 2, wherein the vertical moving structure comprises: a pair of U-shaped vertical moving plates (13) with the same structure, two pairs of vertical supporting bearings (14) with the same structure, a pair of vertical moving threaded rods (15) with the same structure, a pair of vertical moving driving machines (16) with the same structure and a vertical moving auxiliary fixing component;

the two pairs of vertical support bearings (14) are respectively installed in the pair of U-shaped vertical moving plates (13), the pair of vertical moving threaded rods (15) are respectively installed on the two pairs of vertical support bearings (14), the pair of vertical moving drivers (16) are respectively installed in the pair of U-shaped vertical moving plates (13), the driving ends of the pair of vertical moving drivers (16) are respectively connected to the pair of vertical moving threaded rods (15), and the vertical moving auxiliary fixing assemblies are respectively installed on the pair of vertical moving threaded rods (15).

4. The machine tool guide rail of claim 3, wherein the vertical movement auxiliary fixing component comprises: two pairs of vertical moving slide blocks (17) with the same structure, four pairs of vertical positioning pins (18) with the same structure, two pairs of vertical springs (19) with the same structure, two pairs of vertical guide blocks (20) with the same structure, two pairs of vertical button pressure springs (21) with the same structure and two pairs of vertical electromagnets (22) with the same structure;

the two pairs of vertical moving sliding blocks (17) are respectively arranged on the pair of vertical moving threaded rods (15), two pairs of vertical positioning grooves (23) with the same structure are respectively arranged in the two pairs of vertical moving sliding blocks (17), four pairs of vertical positioning pins (18) are respectively inserted into the two pairs of vertical moving sliding blocks (17), four pairs of vertical springs (19) are respectively arranged on the four pairs of vertical positioning pins (18), two pairs of vertical guide blocks (20) are respectively arranged in the two pairs of vertical positioning grooves (23), two pairs of vertical button pressure springs (21) are respectively arranged in the two pairs of vertical positioning grooves (23), and the two pairs of vertical button pressure springs (21) are connected to the two pairs of vertical guide blocks (20), and the two pairs of vertical electromagnets (22) are respectively arranged on the two pairs of vertical moving slide blocks (17).

5. The guide rail of claim 4, wherein a pair of auxiliary supporting and moving grooves (24) with the same structure are respectively formed on the pair of horizontal moving grooves (5) and the pair of U-shaped vertical moving plates (13), and a pair of auxiliary supporting and moving sliders (25) with the same structure are respectively formed on the pair of vertical moving sliders (17) and the pair of horizontal moving sliders (6).

6. The machine guide rail of claim 5, wherein a plurality of infrared measuring instruments (26) with the same structure are respectively arranged on the pair of vertically moving sliders (17) and the pair of horizontally moving sliders (6).

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