CN214372358U - Manual-automatic high-precision measuring device - Google Patents
Manual-automatic high-precision measuring device Download PDFInfo
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- CN214372358U CN214372358U CN202120619721.6U CN202120619721U CN214372358U CN 214372358 U CN214372358 U CN 214372358U CN 202120619721 U CN202120619721 U CN 202120619721U CN 214372358 U CN214372358 U CN 214372358U
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- plate
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Abstract
The utility model relates to the technical field of thickness measuring devices, in particular to a manual-automatic integrated high-precision measuring device, wherein a clamping arm is fixed on a vertical rod; a detection unit is fixed on the clamping arm; a lifting mechanism, a central supporting platform and a universal ball group are fixed on the marble platform; the universal ball group consists of a plurality of universal ball mechanisms; the universal ball mechanisms are distributed around the central supporting platform in a circumferential manner; the central support platform can translate on the marble platform; a rotating mechanism is fixed on the lifting mechanism; a straight rod is fixed on the rotating mechanism; the straight rod is fixed with a detection unit. Use the utility model discloses the time, make through central supporting platform and universal ball group in this structure by the measured work piece can finely tune certain angle on the platform, in addition can rotate and go up and down the straight-bar can carry out thickness measurement to every point of work piece on the platform, make things convenient for the measurement of work piece, improve measurement of efficiency.
Description
Technical Field
The utility model relates to a thickness measurement technical field, in particular to manual-automatic high accuracy measurement device.
Background
The thickness measuring device detects a measuring object through the detecting element to obtain the thickness of the corresponding position of the detecting object, and in order to measure the thickness of the corresponding point of the measured object, the measuring element needs to be continuously translated to align the measuring element to the measured position, so that a large amount of time needs to be consumed in the measuring process to influence the measuring efficiency.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to prior art's defect and not enough, provide a manual-automatic high accuracy measuring device.
In order to achieve the above object, the utility model adopts the following technical scheme:
the utility model relates to a manual-automatic integrated high-precision measuring device, which comprises a marble platform and a vertical rod fixed on the surface of the marble platform; a clamping arm is fixed on the vertical rod; a detection unit is fixed on the clamping arm; a lifting mechanism, a central supporting platform and a universal ball group are fixed on the marble platform; the universal ball group consists of a plurality of universal ball mechanisms; the universal ball mechanisms are circumferentially distributed around the central supporting platform; the central support platform is capable of translating on the marble platform; a rotating mechanism is fixed on the lifting mechanism; a straight rod is fixed on the rotating mechanism; the straight rod is fixed with a detection unit.
Furthermore, the universal ball mechanism consists of a supporting fixed seat and a universal ball; the supporting and fixing seat is fixed on the marble platform; the universal ball is fixed on the supporting and fixing seat.
Further, the number of the universal ball mechanisms is four.
Furthermore, the central supporting platform comprises a reference shaft fixing plate and a bottom plate fixed on the marble platform; a reference shaft which is vertically upward is fixed on the reference shaft fixing plate; a sliding plate is arranged between the bottom plate and the reference shaft fixing plate; two adjacent side surfaces of the sliding plate are provided with differential head adjusting mechanisms; the other two side surfaces of the sliding plate are provided with locking mechanisms;
the locking mechanism consists of a locking bolt and a locking plate; the locking plate is fixed on the sliding plate; the sliding plate is provided with a transverse groove; the locking bolt penetrates through the transverse groove and then is in threaded connection with the bottom plate;
the differential head adjusting mechanism consists of a push plate, a differential head fixing seat and a differential head; the push plate is fixed on the sliding plate; the main body of the differential head is fixed on the bottom plate through a differential head fixing seat; and the feeding shaft of the differential head is pressed on the push plate.
After the structure is adopted, the utility model discloses beneficial effect does: the utility model relates to a manual-automatic integrated high-precision measuring device, which comprises a marble platform and a vertical rod fixed on the surface of the marble platform; a clamping arm is fixed on the vertical rod; a detection unit is fixed on the clamping arm; a lifting mechanism, a central supporting platform and a universal ball group are fixed on the marble platform; the universal ball group consists of a plurality of universal ball mechanisms; the universal ball mechanisms are distributed around the central supporting platform in a circumferential manner; the central support platform can translate on the marble platform; a rotating mechanism is fixed on the lifting mechanism; a straight rod is fixed on the rotating mechanism; the straight rod is fixed with a detection unit. When the utility model is used, a workpiece is placed between the universal ball mechanisms and supported by the central supporting platform, so that the workpiece can rotate on the marble platform, and the thickness of the position of the workpiece to be measured is measured by the detection unit on the clamping arm; if the measuring part is a circular measuring part, the center of the measuring part is supported by the central supporting platform, the straight rod is lifted to a proper height by utilizing the lifting mechanism according to the thickness of the measured part, and the measured part is manually rotated by matching the rotating mechanism, so that the measured position is aligned with the straight rod; the workpiece to be measured can be finely adjusted by a certain angle on the platform through the central supporting platform and the universal ball group in the structure, and in addition, the straight rod capable of rotating and lifting can be used for measuring the thickness of each point of the workpiece on the platform, so that the workpiece can be conveniently measured, and the measurement efficiency is improved.
Drawings
Fig. 1 is a front view of the present invention;
fig. 2 is a top view of the present invention;
FIG. 3 is a top view of the center support platform;
FIG. 4 is a front view of the center support platform;
description of reference numerals:
1. erecting a rod; 2. a clamp arm; 3. a rotation mechanism; 4. a lifting mechanism; 5. a supporting fixed seat;
6. a marble platform; 7. a central support platform; 701. locking the bolt; 702. a reference axis;
703. pushing the plate; 704. a differential head fixing seat; 705. differentiating the head; 706. a locking plate;
706a, a transverse slot; 707. a reference shaft fixing plate; 708. a sliding plate; 709. a base plate;
8. a universal ball; 9. a straight rod.
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
As shown in fig. 1 to 4, the manual-automatic integrated high-precision measuring device of the present invention comprises a marble platform 6, and a vertical rod 1 fixed on the surface of the marble platform 6; a clamping arm 2 is fixed on the vertical rod 1; a detection unit is fixed on the clamping arm 2; the marble platform 6 is fixed with a lifting mechanism 4, a central supporting platform 7 and a universal ball group; the universal ball group consists of a plurality of universal ball mechanisms; the universal ball mechanisms are circumferentially distributed around the central supporting platform 7; the central support platform 7 is able to translate on the marble platform 6; the lifting mechanism 4 is fixed with a rotating mechanism 3; a straight rod 9 is fixed on the rotating mechanism 3; a detection unit is fixed on the straight rod 9;
the rotating mechanism 3, the lifting mechanism 4 and the detection unit are not essentially different from the prior art, so the details are not described; the workpiece is placed among all the universal ball mechanisms and supported by the central supporting platform 7, so that the workpiece can rotate on the marble platform 6, and the thickness of the position of the workpiece to be measured is measured by the detection unit on the clamping arm 2; if the measuring part is a circular measuring part, the center of the measuring part is supported by the central supporting platform 7, the straight rod 9 is lifted to a proper height by the lifting mechanism 4 according to the thickness of the measured part, and the measured part is manually rotated by the rotating mechanism 3 in a matching manner, so that the measured position is aligned with the straight rod 9; the workpiece to be measured can be finely adjusted by a certain angle on the platform through the central supporting platform 7 and the universal ball group, and in addition, the thickness of each point of the workpiece on the platform can be measured by the straight rod 9 which can rotate and lift, so that the workpiece can be conveniently measured, and the measurement efficiency is improved.
As a preferred mode of the utility model, the universal ball mechanism is composed of a supporting fixed seat 5 and a universal ball 8; the supporting and fixing seat 5 is fixed on the marble platform 6; the universal ball 8 is fixed on the supporting and fixing seat 5; the measured object can rotate on the universal ball 8 in any direction.
As an optimized mode of the present invention, the number of the universal ball mechanisms is four.
As a preferred mode of the present invention, the central supporting platform 7 comprises a reference shaft fixing plate 707 and a bottom plate 709 fixed on the marble platform 6; a reference shaft 702 which faces upwards vertically is fixed on the reference shaft fixing plate 707; a sliding plate 708 is arranged between the bottom plate 709 and the reference shaft fixing plate 707; two adjacent side surfaces of the sliding plate 708 are provided with a differential head adjusting mechanism; the other two side surfaces of the sliding plate 708 are provided with locking mechanisms;
the locking mechanism consists of a locking bolt 701 and a locking plate 706; the locking plate 706 is fixed to the sliding plate 708; the sliding plate 708 is provided with a transverse groove 706 a; the locking bolt 701 penetrates through the transverse groove 706a and then is in threaded connection with the bottom plate 709;
the differential head adjusting mechanism consists of a push plate 703, a differential head fixing seat 704 and a differential head 705; the push plate 703 is fixed on the sliding plate 708; the main body of the differential head 705 is fixed on the bottom plate 709 through a differential head fixing seat 704; the feeding shaft of the differential head 705 is pressed on the push plate 703; the differential head 705 is not essentially different from the prior art, and thus will not be described in detail; one of the locking mechanisms and the adjacent differential head adjusting mechanism form a transverse positioning structure, the other locking mechanism and the other differential head adjusting mechanism form a longitudinal positioning mechanism, and after the locking bolt 701 is loosened, the feeding shaft is adjusted through the differential head 705, so that the sliding plate 708 slides on the bottom plate 709; therefore, the two locking mechanisms and the two differential head adjusting mechanisms are used for realizing the adjustment in two directions, so that the circle center of the measured object is coincided with the reference shaft 702.
When the utility model is used, a workpiece is placed between the universal ball mechanisms, and after the locking bolt is loosened, the feeding shaft is adjusted through the differential head, so that the sliding plate slides on the bottom plate; therefore, the two locking mechanisms and the two differential head adjusting mechanisms are used for realizing the adjustment in two directions, so that the circle center of the measured object is coincided with the reference axis; the workpiece can rotate on the marble platform, and the thickness of the position of the workpiece to be measured is measured through the detection unit on the clamping arm; if the measuring part is a circular measuring part, the center of the measuring part is supported by the central supporting platform, the straight rod is lifted to a proper height by utilizing the lifting mechanism according to the thickness of the measured part, and the measured part is manually rotated by matching the rotating mechanism, so that the measured position is aligned with the straight rod; the workpiece to be measured can be finely adjusted by a certain angle on the platform through the central supporting platform and the universal ball group in the structure, and in addition, the straight rod capable of rotating and lifting can be used for measuring the thickness of each point of the workpiece on the platform, so that the workpiece can be conveniently measured, and the measurement efficiency is improved.
The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.
Claims (4)
1. A manual-automatic integrated high-precision measuring device comprises a marble platform (6) and a vertical rod (1) fixed on the surface of the marble platform (6); a clamping arm (2) is fixed on the vertical rod (1); a detection unit is fixed on the clamping arm (2);
the method is characterized in that: a lifting mechanism (4), a central supporting platform (7) and a universal ball group are fixed on the marble platform (6); the universal ball group consists of a plurality of universal ball mechanisms; the universal ball mechanisms are distributed circumferentially around the central supporting platform (7); the central support platform (7) is able to translate on the marble platform (6); a rotating mechanism (3) is fixed on the lifting mechanism (4); a straight rod (9) is fixed on the rotating mechanism (3); the straight rod (9) is fixed with a detection unit.
2. The manual-automatic integrated high-precision measuring device according to claim 1, characterized in that: the universal ball mechanism consists of a supporting fixed seat (5) and a universal ball (8); the supporting and fixing seat (5) is fixed on the marble platform (6); the universal ball (8) is fixed on the supporting and fixing seat (5).
3. The manual-automatic integrated high-precision measuring device according to claim 1, characterized in that: the number of the universal ball mechanisms is four.
4. The manual-automatic integrated high-precision measuring device according to claim 1, characterized in that: the central supporting platform (7) comprises a reference shaft fixing plate (707) and a bottom plate (709) fixed on the marble platform (6); a reference shaft (702) which is vertically upward is fixed on the reference shaft fixing plate (707); a sliding plate (708) is arranged between the bottom plate (709) and the reference shaft fixing plate (707); two adjacent side surfaces of the sliding plate (708) are provided with a differential head adjusting mechanism; the other two side surfaces of the sliding plate (708) are provided with locking mechanisms;
the locking mechanism consists of a locking bolt (701) and a locking plate (706); the locking plate (706) is fixed on the sliding plate (708); the sliding plate (708) is provided with a transverse groove (706 a); the locking bolt (701) penetrates through the transverse groove (706 a) and then is in threaded connection with the bottom plate (709);
the differential head adjusting mechanism consists of a push plate (703), a differential head fixing seat (704) and a differential head (705); the push plate (703) is fixed on the sliding plate (708); the main body of the differential head (705) is fixed on the bottom plate (709) through a differential head fixing seat (704); the feed shaft of the differential head (705) is pressed on the push plate (703).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120619721.6U CN214372358U (en) | 2021-03-26 | 2021-03-26 | Manual-automatic high-precision measuring device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120619721.6U CN214372358U (en) | 2021-03-26 | 2021-03-26 | Manual-automatic high-precision measuring device |
Publications (1)
Publication Number | Publication Date |
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CN214372358U true CN214372358U (en) | 2021-10-08 |
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CN202120619721.6U Active CN214372358U (en) | 2021-03-26 | 2021-03-26 | Manual-automatic high-precision measuring device |
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CN (1) | CN214372358U (en) |
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2021
- 2021-03-26 CN CN202120619721.6U patent/CN214372358U/en active Active
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