CN219915064U - Cutting and rotating device for manufacturing physical detection sample block - Google Patents

Abstract

The utility model discloses a cutting and rotating device for manufacturing a physical detection sample block, which comprises a supporting table and a rotating table, wherein a first cavity is formed in the supporting table, a first motor is fixedly connected to the center of the right side of the inner wall of the first cavity, threaded rods are connected to the front and the rear of the left side and the right side of the inner wall of the first cavity in a rotating mode, the right sides of the two threaded rod walls are connected with the surface of the output end of the first motor in a meshed mode through a transmission mechanism, two nuts are connected to the centers of the two threaded rod walls in a threaded mode, connecting plates are fixedly connected to the upper surfaces of the plurality of nuts in a threaded mode, when the device is used for working, after the two sides of the sample block are machined, the sample block does not need to be manually rotated to finish machining operation in the subsequent process, time consumed by production operation is shortened, working efficiency is greatly improved, when the sample block is machined, influences of vibration on production operation are reduced, and accuracy of equipment is improved.

Description

Cutting and rotating device for manufacturing physical detection sample block

Technical Field

The utility model belongs to the technical field of detection sample block manufacturing equipment, and particularly relates to a cutting and rotating device for manufacturing a physical detection sample block.

Background

The sample block is used for manufacturing a product into a sample block for detection, so that whether the quality, various performances and the like of the product meet the use requirements or not is tested, and the method is a test method which is frequently used in production operation;

the cutting and rotating device is equipment for manufacturing the sample block, but the existing cutting and rotating device still has some defects in the use process, and when the existing cutting and rotating device works, after the two sides of the sample block are processed, the sample block needs to be manually rotated to finish the processing operation in the subsequent process, so that the time consumed by the production operation is increased, and the working efficiency is greatly influenced.

Disclosure of Invention

The utility model aims to provide a cutting and rotating device for manufacturing a physical detection sample block, which is used for solving the problems that the cutting and rotating device provided in the background art is equipment for manufacturing the sample block, but the existing cutting and rotating device still has some defects in the use process, and the existing cutting and rotating device needs to manually rotate the sample block after processing the two sides of the sample block to finish the processing operation in the subsequent process when working, so that the time consumed by the production operation is increased, and the working efficiency is greatly influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the device comprises a supporting table and a rotating table, wherein a first cavity is formed in the supporting table, a first motor is fixedly connected to the center of the right side of the inner wall of the first cavity, threaded rods are connected to the front and the rear of the left side and the right side of the inner wall of the first cavity in a rotating mode, the right sides of the two threaded rod walls are connected with the surface of the output end of the first motor in a meshed mode through a transmission mechanism, two nuts are connected to the center of the two threaded rod walls in a threaded mode, connecting plates are fixedly connected to the upper surfaces of the nuts in a threaded mode, connecting rods are fixedly connected to the center of the upper surfaces of the connecting plates, and the upper ends of the connecting rods are fixedly connected to the center of the lower surface of the rotating table;

the inside of rolling table has seted up the second cavity, the center department fixedly connected with fixed plate of second cavity inner wall, the upper surface of rolling table rotates through first rotary mechanism and is connected with the circular plate, the upper surface fixedly connected with second motor of fixed plate, the upper end of second motor output and the center department fixedly connected with of circular plate lower surface, the below fixedly connected with servo motor on second cavity inner wall right side, the left end of servo motor output and the left side below of second cavity inner wall are rotated jointly and are connected with two-way lead screw, the left and right sides of second cavity inner wall below all has the sliding plate through second sliding mechanism sliding connection, screw hole with two-way lead screw assorted is all seted up to the below of two sliding plate relative one side surfaces, the inner wall of two screw holes respectively with two-way lead screw rod wall left and right sides threaded connection.

Preferably, the transmission mechanism comprises a first gear, the surface of the output end of the first motor is fixedly connected with the first gear, the right sides of the two threaded rod walls are fixedly connected with second gears, and the surfaces of the opposite sides of the two second gears are jointly meshed with the front side and the rear side of the first gear.

Preferably, the first rotating mechanism comprises an annular groove, the lower surface of the circular plate is fixedly connected with an annular sliding block matched with the annular groove, and the surface of the annular sliding block is in sliding connection with the inner wall of the annular groove.

Preferably, the second sliding mechanism comprises two sliding grooves, the sliding grooves are formed in the left side and the right side below the inner wall of the second cavity, sliding blocks matched with the sliding grooves are fixedly connected to the lower surfaces of the two sliding plates, and the surfaces of the two sliding blocks are respectively and slidably connected with the inner walls of the corresponding sliding grooves.

Preferably, the left and right sides of brace table upper surface is all fixedly connected with electronic spout, and the equal sliding connection of inner wall of a plurality of electronic spouts has electronic slider, and the common fixedly connected with backup pad of upper surface of two corresponding electronic sliders, the equal fixedly connected with hydraulic stem in center department of two backup pad upper surfaces, the center department to the center department of lower surface of corresponding backup pad upper surface is all run through to the lower extreme of two hydraulic stems, the equal fixedly connected with tool bit of lower extreme of two hydraulic stems.

Preferably, four corners of the lower surface of the supporting table are fixedly connected with supporting legs, the lower surfaces of the supporting legs are fixedly connected with shock pads, and the shock pads are made of softened rubber materials.

Compared with the prior art, the utility model has the beneficial effects that: 1. by arranging the supporting table, the first motor, the second motor, the threaded rod, the nut, the rotating table, the circular plate, the servo motor, the bidirectional screw rod, the sliding plate, the first gear, the second gear and the like, when the device is used for working, after the two sides of the sample block are processed, the sample block is not required to be manually rotated to complete the processing operation in the subsequent process, so that the time consumed by the production operation is shortened, and the working efficiency is greatly improved;

2. through setting up supporting leg, shock pad etc. when processing the sample piece, alleviate the influence of vibrations to the production operation, improve the accuracy of equipment.

Drawings

FIG. 1 is a schematic perspective view of a support table of a cutting and rotating device for manufacturing a physical detection sample block according to the present utility model;

FIG. 2 is a schematic diagram showing a cross-sectional structure of a supporting table of a cutting and rotating device for manufacturing a physical test sample block according to the present utility model;

FIG. 3 is an enlarged view of the structure of the cutting and rotating device A for manufacturing the physical detection sample block according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a rotary table of a cutting and rotating apparatus for manufacturing a physical test specimen according to the present utility model;

in the figure: 1. a support table; 2. a first cavity; 3. a first motor; 4. a threaded rod; 5. a nut; 6. a connecting plate; 7. a connecting rod; 8. a rotating table; 9. a second cavity; 10. a fixing plate; 11. a circular plate; 12. a second motor; 13. a servo motor; 14. a two-way screw rod; 15. a sliding plate; 16. a threaded hole; 17. a first gear; 18. a second gear; 19. an annular groove; 20. an annular slide block; 21. a chute; 22. a slide block; 23. an electric chute; 24. an electric slide block; 25. a support plate; 26. a hydraulic rod; 27. a cutter head; 28. support legs; 29. and a shock pad.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-4, the present utility model provides the following technical solutions: the device comprises a supporting table 1 and a rotating table 8, wherein a first cavity 2 is formed in the supporting table 1, a first motor 3 is fixedly connected to the center of the right side of the inner wall of the first cavity 2, threaded rods 4 are fixedly connected to the front and the rear of the left side and the right side of the inner wall of the first cavity 2 in a rotating mode, the right sides of the two threaded rods 4 are jointly connected with the surface of the output end of the first motor 3 through a transmission mechanism in a meshed mode, two nuts 5 are fixedly connected to the center of the two threaded rods 4, connecting plates 6 are fixedly connected to the upper surfaces of the nuts 5 in a joint mode, connecting rods 7 are fixedly connected to the center of the upper surfaces of the connecting plates 6, and the upper ends of the connecting rods 7 are fixedly connected to the center of the lower surface of the rotating table 8;

the inside of rotating table 8 has seted up second cavity 9, the center department fixedly connected with fixed plate 10 of second cavity 9 inner wall, the upper surface of rotating table 8 rotates through first rotary mechanism and is connected with circular plate 11, the upper surface fixedly connected with second motor 12 of fixed plate 10, the upper end of second motor 12 output and the center department fixedly connected with servo motor 13 of circular plate 11 lower surface, the below fixedly connected with servo motor 13 on second cavity 9 inner wall right side, the left end of servo motor 13 output and the below on second cavity 9 inner wall left side jointly rotate and are connected with two-way lead screw 14, the left and right sides of second cavity 9 inner wall below all is provided with sliding plate 15 through second sliding mechanism sliding connection, screw hole 16 with two-way lead screw 14 assorted screw is all seted up to the below of two sliding plate 15 opposite one side surfaces, the inner wall of two screw holes 16 respectively with two-way lead screw 14 pole wall left and right sides threaded connection.

In order to make the first motor 3 drive the two threaded rods 4 to rotate, in this embodiment, preferably, the transmission mechanism includes a first gear 17, a first gear 17 is fixedly connected to a surface of an output end of the first motor 3, second gears 18 are fixedly connected to right sides of rod walls of the two threaded rods 4, and opposite side surfaces of the two second gears 18 are jointly meshed with front and rear sides of the first gear 17.

In order to enable the circular plate 11 to rotate normally, in this embodiment, preferably, the first rotating mechanism includes an annular groove 19, an annular slider 20 matched with the annular groove 19 is fixedly connected to the lower surface of the circular plate 11, and the surface of the annular slider 20 is slidingly connected to the inner wall of the annular groove 19.

In order to enable the two sliding plates 15 to slide normally in the second cavity 9, in this embodiment, preferably, the second sliding mechanism includes two sliding grooves 21, the sliding grooves 21 are formed on both left and right sides below the inner wall of the second cavity 9, the sliding blocks 22 matched with the sliding grooves 21 are fixedly connected to the lower surfaces of the two sliding plates 15, and the surfaces of the two sliding blocks 22 are respectively connected with the inner walls of the corresponding sliding grooves 21 in a sliding manner.

In order to directly process the detection block after the detection block turns, in this embodiment, preferably, both sides of the upper surface of the supporting table 1 are fixedly connected with electric sliding grooves 23, inner walls of the electric sliding grooves 23 are fixedly connected with electric sliding blocks 24, the upper surfaces of the two corresponding electric sliding blocks 24 are fixedly connected with supporting plates 25 together, the centers of the upper surfaces of the two supporting plates 25 are fixedly connected with hydraulic rods 26, and the lower ends of the two hydraulic rods 26 penetrate through the centers of the upper surfaces of the corresponding supporting plates 25 to the centers of the lower surfaces, and the lower ends of the two hydraulic rods 26 are fixedly connected with cutter heads 27.

In order to reduce the influence of vibration on the machining during the machining process, in this embodiment, preferably, the four corners of the lower surface of the supporting table 1 are fixedly connected with supporting legs 28, the lower surfaces of the supporting legs 28 are fixedly connected with shock-absorbing pads 29, and the shock-absorbing pads 29 are made of softened rubber materials.

The working principle and the using flow of the utility model are as follows: when the detection block is required to be processed, the detection block is placed on the circular plate 11, the servo motor 13 is started, the rotation of the output end of the servo motor 13 drives the bidirectional screw rod 14 to rotate, the rotation of the bidirectional screw rod 14 drives the two sliding plates 15 to move, the two sliding plates 15 clamp the detection block, and then the left hydraulic rod 26 drives the left tool bit 27 to process the detection block in the first step;

after the first step of processing is finished, the first motor 3 is started, the rotation of the output end of the first motor 3 drives the rotation of the first gear 17, the rotation of the first gear 17 drives the rotation of the two second gears 18, the rotation of the two second gears 18 drives the two threaded rods 4 to rotate, the rotation of the two threaded rods 4 drives the plurality of nuts 5 to move, the movement of the plurality of nuts 5 drives the connecting plate 6 to move together, the movement of the connecting plate 6 drives the movement of the connecting rod 7, the connecting rod 7 drives the whole rotating table 8 to move to the right side, after the rotating table 8 moves to the lower side of the supporting plate 25 on the right side, the two sliding plates 15 are operated firstly to release the detection block, then the second motor 12 is started, the second motor 12 drives the circular plate 11 to rotate, so that the rotation of the detection block is finished, and then the detection block is clamped and fixed again, and the second processing is finished.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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 utility model provides a cut change device for making physics detects sample piece, includes brace table (1) and rotation table (8), its characterized in that: the supporting table is characterized in that a first cavity (2) is formed in the supporting table (1), a first motor (3) is fixedly connected to the center of the right side of the inner wall of the first cavity (2), threaded rods (4) are connected to the front and the rear of the left side and the right side of the inner wall of the first cavity (2) in a rotating mode, the right sides of the two threaded rods (4) are connected with the surface of the output end of the first motor (3) in a meshed mode through a transmission mechanism, two nuts (5) are connected to the center of the two threaded rods (4) in a threaded mode, connecting plates (6) are fixedly connected to the upper surfaces of the plurality of nuts (5) in a mode, connecting rods (7) are fixedly connected to the center of the upper surfaces of the plurality of connecting plates (6), and the upper ends of the connecting rods (7) are fixedly connected to the center of the lower surface of the rotating table (8);

the inside of rolling table (8) has seted up second cavity (9), the center department fixedly connected with fixed plate (10) of second cavity (9) inner wall, the upper surface of rolling table (8) is rotated through first rotary mechanism and is connected with circular plate (11), the upper surface fixedly connected with second motor (12) of fixed plate (10), the upper end of second motor (12) output and the center department fixed connection of circular plate (11) lower surface, the below fixedly connected with servo motor (13) on second cavity (9) inner wall right side, the left end of servo motor (13) output and the below on second cavity (9) inner wall left side are rotated jointly and are connected with two-way lead screw (14), the left and right sides of second cavity (9) inner wall below is all through second sliding mechanism sliding connection have sliding plate (15), two screw holes (16) with two-way lead screw (14) assorted screw threads are all seted up to the below of two opposite one side surfaces of sliding plate (15), two screw holes (16) respectively with the two-way screw rod wall two-way screw thread connection of lead screw (14).

2. A cutting and rotating device for manufacturing physical test blocks according to claim 1, wherein: the transmission mechanism comprises a first gear (17), the surface of the output end of the first motor (3) is fixedly connected with the first gear (17), the right sides of the rod walls of the two threaded rods (4) are fixedly connected with second gears (18), and the surfaces of the opposite sides of the two second gears (18) are jointly meshed with the front side and the rear side of the first gear (17).

3. A cutting and rotating device for manufacturing physical test blocks according to claim 1, wherein: the first rotating mechanism comprises an annular groove (19), the lower surface of the circular plate (11) is fixedly connected with an annular sliding block (20) matched with the annular groove (19), and the surface of the annular sliding block (20) is in sliding connection with the inner wall of the annular groove (19).

4. A cutting and rotating device for manufacturing physical test blocks according to claim 1, wherein: the second sliding mechanism comprises two sliding grooves (21), the sliding grooves (21) are formed in the left side and the right side of the lower portion of the inner wall of the second cavity (9), sliding blocks (22) matched with the sliding grooves (21) are fixedly connected to the lower surfaces of the two sliding plates (15), and the surfaces of the two sliding blocks (22) are respectively in sliding connection with the inner walls of the corresponding sliding grooves (21).

5. A cutting and rotating device for manufacturing physical test blocks according to claim 1, wherein: the utility model discloses a hydraulic support structure, including supporting bench (1), supporting bench, hydraulic rod (26), electric chute (23) are all fixedly connected with in the left and right sides of supporting bench (1) upper surface, a plurality of electric chute (23)'s the equal sliding connection of inner wall has electric slider (24), two corresponding electric slider's (24) upper surface is fixedly connected with backup pad (25) jointly, two equal fixedly connected with hydraulic rod (26) in center department of backup pad (25) upper surface, two the lower extreme of hydraulic rod (26) all runs through the center department of corresponding backup pad (25) upper surface to the center department of lower surface, two equal fixedly connected with tool bit (27) of lower extreme of hydraulic rod (26).

6. A cutting and rotating device for manufacturing physical test blocks according to claim 1, wherein: four corners of the lower surface of the supporting table (1) are fixedly connected with supporting legs (28), the lower surfaces of the supporting legs (28) are fixedly connected with shock pads (29), and the shock pads (29) are made of softened rubber materials.