CN210625624U - Surface roughness rapid detection device for machining - Google Patents

Abstract

The utility model relates to a machining technical field specifically is a roughness quick detection device for machining, including display mechanism, one side of display mechanism is connected with first connecting wire, the position department that one side of display mechanism closes on first connecting wire is connected with the second connecting wire, the one end of second connecting wire is connected with the operation panel, one side surface mounting of operation panel has first electrode input head, one side surface of operation panel closes on the position department of first electrode input head and installs second electrode input head, the position department that one side surface of operation panel closes on second electrode input head installs the head that charges, the one end of first connecting wire is connected with the detection component. The utility model discloses surface roughness short-term test device for machining, for split type device, accessible operation panel intelligent control detects the component and carries out the displacement, separable operation panel and detection component.

Description

Surface roughness rapid detection device for machining

Technical Field

The utility model relates to the technical field of machining, specifically a surface roughness short-term test device for machining.

Background

The surface roughness refers to the unevenness of small distance and tiny peak valley of the processed surface, the distance (wave distance) between two wave crests or two wave troughs is very small (below 1 mm), the surface roughness belongs to microscopic geometric shape error, the smaller the surface roughness, the smoother the surface, the surface roughness is generally formed by the adopted processing method and other factors, the difference of depth, density, shape and texture of traces left on the processed surface is caused due to the difference of the processing method and the workpiece material, a detection device detects the traces through a sensor, mostly detects the traces through a manual moving sensor, the operation is inconvenient, and the detection device cannot be suitable for the detection of different processed parts.

Chinese patent discloses a device (No. CN 206787513U) of on-line measuring surface roughness, this patent technique can accurately detect the roughness of the measured surface of the testee being transported by the conveyer, however, machining on the existing market uses the quick detection device of surface roughness, most formula devices as an organic whole, be unfavorable for the use of device, be unfavorable for detecting the machined part of different shapes, the fixed test platform of most devices is mostly for manual adjustment sensor position to detect, the convenience of use is lower, the detection roughness for machining that can not be quick, influence work efficiency, mostly can not carry out operation panel detection or manual detection according to the in service behavior. Therefore, those skilled in the art have provided a rapid surface roughness measuring device for machining to solve the above problems of the background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a roughness rapid detection device for machining to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a surface roughness rapid detection device for machining comprises a display mechanism, wherein one side of the display mechanism is connected with a first connecting wire, a position, close to the first connecting wire, of one side of the display mechanism is connected with a second connecting wire, one end of the second connecting wire is connected with an operation table, a first electrode input head is mounted on the outer surface of one side of the operation table, a second electrode input head is mounted at the position, close to the first electrode input head, of the outer surface of one side of the operation table, a charging head is mounted at the position, close to the second electrode input head, of the outer surface of one side of the operation table, a detection member is connected with one end of the first connecting wire, a roughness sensor is mounted at the lower end of the detection member, a fixing plate is welded at one side of the upper end of the detection member, a first electrode output head is mounted on the upper surface of the detection member, the welding of lower surface one side of mesa has the supporting legs, the power box is installed to the lower surface front end of mesa, the preceding surface mounting of power box has second electrode output, the welding of the upper surface front end of mesa has first telescopic link, the welding of the upper end of first telescopic link has first switching piece, one side of first switching piece is rotated and is connected with the second switching piece, first arm motor is installed to the opposite side of first switching piece, the rear surface mounting of second switching piece has second arm motor, the rear surface welding of second arm motor has the second telescopic link, the rear surface welding of second telescopic link has the third switching piece, the internal rotation of third switching piece is connected with the fourth switching piece, the last surface mounting of third switching piece has third arm motor.

As a further aspect of the present invention: the power is installed to inside one side of display mechanism, the singlechip is installed to display mechanism's inside opposite side, the position department that the inside opposite side of display mechanism closes on the singlechip installs signal conversion chip, the pilot lamp is installed to display mechanism's upper surface one side, the position department that upper surface one side of display mechanism closes on the pilot lamp installs the display screen, the control button is installed to display mechanism's upper surface opposite side.

As a further aspect of the present invention: one end of the first connecting wire is connected with the first electrode input head, the other end of the first connecting wire is connected with the first electrode output head electrode, the display mechanism and the detection component are connected, one end of the second connecting wire is connected with the second electrode input head, and the other end of the second connecting wire is connected with the second electrode output head electrode, the display mechanism and the operation table.

As a further aspect of the present invention: the supporting legs are four and are respectively welded at one corner of the lower surface of the table board, and a rubber component is arranged at the lower end of each supporting leg.

As a further aspect of the present invention: the operating table and the detection component penetrate through the fixing plate through screws and are fixedly connected with the fourth adapter, the fourth adapter is rotatably connected inside the third adapter through a third mechanical arm motor, and the second adapter is rotatably connected to one side of the first adapter through a first mechanical arm motor.

As a further aspect of the present invention: the output electrode of the charging head is connected with the input end of a power supply, the output electrode of the power supply is connected with the input end of a single chip microcomputer, the output electrode of the single chip microcomputer is connected with the input ends of an indicator lamp, a display screen and a control button, the output end of a signal conversion chip is connected with the input end of the single chip microcomputer through a first connecting wire electrode, and the output end of the single chip microcomputer is connected with the input ends of a first mechanical arm motor, a second mechanical arm motor, a first telescopic rod, a second telescopic rod and a third mechanical arm motor through a second connecting wire electrode.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses surface roughness short-term test device for machining, for split type device, be favorable to the use of device, be convenient for detect the machined part of different shapes, this device accessible operation panel intelligent control detects the component and carries out the displacement, the degree of accuracy that detects is higher, it floats to avoid the hand data that detect when manual displacement detection component hand shakes, increase the accuracy of detected data, surface roughness for the detection machining that can be quick, increase work efficiency, detect in a small amount, or the shape of machined part is comparatively complicated, separable operation panel and detection component, handheld detection component detects the article, can detect under the complex situation condition.

Drawings

FIG. 1 is a schematic structural diagram of a surface roughness rapid detection device for machining;

FIG. 2 is a schematic perspective view of a display mechanism in the surface roughness rapid detection device for machining;

FIG. 3 is a schematic structural diagram of a detection member in a surface roughness rapid detection apparatus for machining;

fig. 4 is a schematic structural diagram of an operation table in the surface roughness rapid detection device for machining.

In the figure: 1. a display mechanism; 2. an operation table; 3. a detecting member; 4. a first connecting line; 5. a second connecting line; 6. an indicator light; 7. a display screen; 8. a control key; 9. a power source; 10. a signal conversion chip; 11. a single chip microcomputer; 12. a first electrode input head; 13. a second electrode input head; 14. a charging head; 15. a fixing plate; 16. a first electrode output stud; 17. a roughness sensor; 18. a table top; 19. supporting legs; 20. a power supply box; 21. a second electrode output stud; 22. a first telescopic rod; 23. a first transfer member; 24. a first arm motor; 25. a second adaptor; 26. a second robot arm motor; 27. a second telescopic rod; 28. a third adaptor; 29. a fourth adaptor; 30. and a third mechanical arm motor.

Detailed Description

Referring to fig. 1 to 4, in an embodiment of the present invention, a surface roughness rapid detection device for machining includes a display mechanism 1, a first connection line 4 is connected to one side of the display mechanism 1, a second connection line 5 is connected to a position of one side of the display mechanism 1 close to the first connection line 4, an operation console 2 is connected to one end of the second connection line 5, a first electrode input head 12 is installed on an outer surface of one side of the operation console 2, a second electrode input head 13 is installed on an outer surface of one side of the operation console 2 close to the first electrode input head 12, a charging head 14 is installed on an outer surface of one side of the operation console 2 close to the second electrode input head 13, a detection member 3 is connected to one end of the first connection line 4, a roughness sensor 17 (model is KS120) is installed at a lower end of the detection member 3, a fixing plate 15 is welded to one side of an upper, a first electrode output head 16 is mounted on the upper surface of the detection member 3, a table top 18 is arranged at the lower end of the operating table 2, a supporting leg 19 is welded on one side of the lower surface of the table top 18, a power supply box 20 is mounted at the front end of the lower surface of the table top 18, a second electrode output head 21 is mounted on the front surface of the power supply box 20, a first telescopic rod 22 (model number XDFA24-500) is welded at the front end of the upper surface of the table top 18, a first adapter 23 is welded at the upper end of the first telescopic rod 22, a second adapter 25 is rotatably connected to one side of the first adapter 23, a first mechanical arm motor 24 (model number DK-36P0550) is mounted at the other side of the first adapter 23, a second mechanical arm motor 26 (model number DK-36P550) is mounted on the rear surface of the second adapter 25, a second telescopic rod 27 (model number XDFA24-500) is welded on the rear surface of the second mechanical arm motor 26, a fourth adapter 29 is rotatably connected inside the third adapter 28, a third mechanical arm motor 30 (model DK-36P550) is mounted on the upper surface of the third adapter 28, one end of a first connecting wire 4 is connected with the first electrode input head 12, the other end of the first connecting wire 4 is connected with the first electrode output head 16 through an electrode, the display mechanism 1 and the detection member 3 are connected with the electrode, one end of a second connecting wire 5 is connected with the second electrode input head 13, the other end of the second connecting wire 5 is connected with the second electrode output head 21 through an electrode, the display mechanism 1 and the operation table 2 are connected with the other end of the second connecting wire 5 through an electrode, four supporting legs 19 are respectively welded on one corner of the lower surface of the table board 18, a rubber member is arranged at the lower end of each supporting leg 19, the operation table 2 and the detection member 3 are fixedly connected with the fourth adapter 29 through a screw penetrating through a fixing plate 15, the fourth adapter 29 is rotatably connected inside the third adapter 28 through, the second adaptor 25 is rotatably connected with one side of the first adaptor 23 by the first mechanical arm motor 24, is inserted into the charging head 14 by an external power supply line to charge the device, the power supply line in the charging head 14 is pulled out after the electric quantity is full, the detection component 3 is fixed on the operation table 2 by the fixing plate 15 and the fourth adaptor 29 according to the situation, the display mechanism 1, the operation table 2 and the detection component 3 are connected with the second connecting line 5 by the first connecting line 4, the mechanical workpiece to be detected is placed on the upper surface of the table top 18, the up-down position of the detection component 3 is adjusted by the expansion and contraction of the first expansion link 22 controlled by the singlechip 11, the front-back position of the detection component 3 is adjusted by the expansion and contraction of the second expansion link 27, the detection angles of the detection component 3 are adjusted by the operation of the first mechanical arm motor 24, the second mechanical arm motor 26 and the third mechanical arm motor 30, the detection data of the roughness, when detecting a machined part to be detected, the shape of which is complex or is not suitable for being operated on the operation table 2, the operation table 2 and the detection component 3 are separated through the fixing plate 15 and the fourth adaptor 29, the handheld detection component 3 detects the machined part to be detected, and after the device is used, the display mechanism 1, the operation table 2 and the detection component 3 are separated through the first connecting wire 4 and the second connecting wire 5, and the device is placed at a storage position.

In fig. 1, 2: the power 9 is installed to inside one side of display mechanism 1, singlechip 11 (the model is MKL16Z128VFM4) is installed to the inside opposite side of display mechanism 1, signal conversion chip 10 (the model is SY R-P-O) is installed to the inside opposite side of display mechanism 1 near the position of singlechip 11, pilot lamp 6 is installed to upper surface one side of display mechanism 1, display screen 7 is installed to the position that upper surface one side of display mechanism 1 is close to pilot lamp 6, control button 8 is installed to the upper surface opposite side of display mechanism 1, the input of power 9 is connected to the output electrode of head 14 that charges, the input of singlechip 11 is connected to the output electrode of power 9, pilot lamp 6 is connected to the output electrode of singlechip 11, display screen 7, the input of control button 8, the input of singlechip 11 is connected to the output electrode of signal conversion chip 10, the output of roughness sensor 17 is connected to the input of signal conversion chip 10 through first connection line 4 electrode The utility model discloses a roughness sensor 17, the utility model discloses a roughness sensor, a singlechip 11, the output passes through 5 electrode connection first arm motor 24 of second connecting wire, second arm motor 26, first telescopic link 22, second telescopic link 27, third arm motor 30's input, the inside of charging head 14 is inserted to the external power supply line, charge to the inside of power 9, get into singlechip 11's inside behind the processing of roughness sensor 17's detection data passing signal conversion chip 10, show on display screen 7 through singlechip 11, watch detection data through display screen 7, pilot lamp 6 lights when detecting, pilot lamp 6 lights after detecting the completion.

The utility model discloses a theory of operation is: firstly, the taking-out device is inserted into the charging head 14 through an external power supply line, the internal of the power supply 9 is charged, the power supply line in the charging head 14 is pulled out after the power is fully charged, then, according to the situation, the detection component 3 is fixed on the operation table 2 through the fixing plate 15 and the fourth adaptor 29, the display mechanism 1, the operation table 2 and the detection component 3 are connected with the second connecting line 5 through the first connecting line 4, the mechanical workpiece to be detected is placed on the upper surface of the table top 18, the control key 8 is pressed to control the first telescopic rod 22 to telescopically adjust the upper and lower positions of the detection component 3 through the singlechip 11, the second telescopic rod 27 telescopically adjusts the front and rear positions of the detection component 3, the first mechanical arm motor 24, the second mechanical arm motor 26 and the third mechanical arm motor 30 operate to adjust the detection angle of the detection component 3, the detection data of the roughness sensor 17 enters the singlechip 11 after being processed by the signal conversion, show on display screen 7 through singlechip 11, watch through display screen 7 and detect data, pilot lamp 6 lights when examining, pilot lamp 6 twinkles and lights after detecting the completion, when detecting the shape comparatively complicated or unsuitable waiting to detect machined part of carrying out the operation on operation panel 2, through fixed plate 15 and fourth adaptor 29 separation operation panel 2 and detection component 3, handheld detection component 3 treats to detect machined part and detects, and finally, use the completion, separate display mechanism 1 through first connecting wire 4 and second connecting wire 5, operation panel 2, detect component 3, it can to place save position department to the device.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The quick detection device of the surface roughness for machining comprises a display mechanism (1) and is characterized in that one side of the display mechanism (1) is connected with a first connecting wire (4), a position, close to the first connecting wire (4), of one side of the display mechanism (1) is connected with a second connecting wire (5), one end of the second connecting wire (5) is connected with an operating platform (2), a first electrode input head (12) is installed on the outer surface of one side of the operating platform (2), a second electrode input head (13) is installed on the outer surface of one side of the operating platform (2) in a position close to the first electrode input head (12), a charging head (14) is installed on the outer surface of one side of the operating platform (2) in a position close to the second electrode input head (13), and one end of the first connecting wire (4) is connected with a detection component (3), the roughness sensor (17) is installed at the lower end of the detection component (3), a fixing plate (15) is welded on one side of the upper end of the detection component (3), a first electrode output head (16) is installed on the upper surface of the detection component (3), a table board (18) is arranged at the lower end of the operating table (2), supporting legs (19) are welded on one side of the lower surface of the table board (18), a power supply box (20) is installed at the front end of the lower surface of the table board (18), a second electrode output head (21) is installed on the front surface of the power supply box (20), a first telescopic rod (22) is welded at the front end of the upper surface of the table board (18), a first adapter (23) is welded at the upper end of the first telescopic rod (22), a second adapter (25) is rotatably connected on one side of the first adapter (23), and a first mechanical arm motor (24) is installed on the other side, the rear surface mounting of second adaptor (25) has second arm motor (26), the rear surface welding of second arm motor (26) has second telescopic link (27), the rear surface welding of second telescopic link (27) has third adaptor (28), the internal rotation of third adaptor (28) is connected with fourth adaptor (29), the last surface mounting of third adaptor (28) has third arm motor (30).

2. The device for rapidly detecting the surface roughness of the machining tool according to claim 1, wherein a power supply (9) is installed on one side of the inside of the display mechanism (1), the single chip microcomputer (11) is installed on the other side of the inside of the display mechanism (1), a signal conversion chip (10) is installed at a position, close to the single chip microcomputer (11), of the other side of the inside of the display mechanism (1), an indicator lamp (6) is installed on one side of the upper surface of the display mechanism (1), a display screen (7) is installed at a position, close to the indicator lamp (6), of one side of the upper surface of the display mechanism (1), and a control key (8) is installed on the other side of the upper surface of the display mechanism (1).

3. The device for rapidly detecting the surface roughness of the machining tool according to claim 1, wherein one end of the first connecting wire (4) is connected with the first electrode input head (12), the other end of the first connecting wire (4) is connected with the first electrode output head (16) through the electrode, the display mechanism (1) and the detection member (3) are connected, one end of the second connecting wire (5) is connected with the second electrode input head (13), and the other end of the second connecting wire (5) is connected with the second electrode output head (21) through the electrode, the display mechanism (1) and the operation table (2) are connected.

4. The device for rapidly detecting the surface roughness of the machining tool as claimed in claim 1, wherein four supporting feet (19) are provided, the four supporting feet (19) are respectively welded at one corner of the lower surface of the table top (18), and a rubber member is provided at the lower end of each supporting foot (19).

5. The device for rapidly detecting the surface roughness of the machining tool as claimed in claim 1, wherein the operating platform (2) and the detection member (3) are fixedly connected with a fourth adapter (29) through a fixing plate (15) by a screw, the fourth adapter (29) is rotatably connected inside a third adapter (28) by a third robot motor (30), and the second adapter (25) is rotatably connected on one side of the first adapter (23) by a first robot motor (24).

6. The device for rapidly detecting the surface roughness for machining according to claim 2, wherein an output end electrode of the charging head (14) is connected with an input end of a power supply (9), an output end electrode of the power supply (9) is connected with an input end of a single chip microcomputer (11), an output end electrode of the single chip microcomputer (11) is connected with input ends of an indicator lamp (6), a display screen (7) and a control key (8), an output end electrode of the signal conversion chip (10) is connected with an input end of the single chip microcomputer (11), an output end of the roughness sensor (17) is connected with an input end of the signal conversion chip (10) through a first connecting wire (4) electrode, and an output end of the single chip microcomputer (11) is connected with a first mechanical arm motor (24), a second mechanical arm motor (26), a first telescopic rod (22) through a second connecting wire (5) electrode, The input end of a second telescopic rod (27) and a third mechanical arm motor (30).

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