CN218916137U - Detector with adapt to multiple type gauge block function - Google Patents

Abstract

The application relates to the technical field of gauge block detection, in particular to a detector with a function of adapting to multiple types of gauge blocks, which adopts the technical scheme that: the measuring device comprises a base, wherein a moving mechanism is arranged on the base, a measuring mechanism is arranged at the top of the moving mechanism, and a detecting component for placing a gauge block for detection processing is arranged on the moving mechanism; the detection assembly is used for detecting the plate and positioning pieces for positioning the detection plate, and a plurality of detection holes for uniformly placing the gauge blocks are formed in the detection plate; the moving mechanism comprises a moving assembly for driving the detection plate to move, and further comprises a displacement frame for placing the detection plate, wherein the positioning piece is arranged on the displacement frame and comprises a positioning block fixedly arranged on the displacement frame, and further comprises a positioning rod arranged in the positioning block, and the detection plate is provided with a positioning hole corresponding to the positioning rod; the gauge block detection device has the advantages that a plurality of gauge blocks are measured simultaneously, and the gauge block detection speed and the detection precision are improved.

Description

Detector with adapt to multiple type gauge block function

Technical Field

The utility model relates to the technical field of gauge block detection, in particular to a detector with a function of adapting to multiple types of gauge blocks.

Background

The gauge block comparator is a metering instrument for comparing the length of the measuring gauge block. In the precision displacement measurement, more than 95% of gauge block measurement is comparison measurement, and the measurement result is obtained by measuring the length differential of two measured pieces by using an Ubbelohde interferometer or other types of comparison measurement instruments, and the method is widely applied to the metering field.

At present, the gauge block adopts a manual mode, and needs to be detected manually by an engineer, and the engineer needs to use a whole day of time when detecting a box gauge block at present, and each data needs to be recorded by the engineer in the detection process.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a detector with a function of adapting to various types of gauge blocks.

The technical scheme adopted for solving the technical problems is as follows:

the detector with the function of adapting to various gauge blocks comprises a base, wherein a moving mechanism is arranged on the base, a measuring mechanism is arranged at the top of the moving mechanism, and a detecting component for placing the gauge blocks for detection processing is arranged on the moving mechanism;

the detection assembly comprises a detection plate used for placing the gauge blocks and a positioning piece used for positioning the detection plate, and a plurality of detection holes used for uniformly placing the gauge blocks are formed in the detection plate;

the moving mechanism comprises a moving assembly for driving the detection plate to move, and further comprises a displacement frame for placing the detection plate, wherein the positioning piece is arranged on the displacement frame and comprises a positioning block fixedly arranged on the displacement frame, and further comprises a positioning rod arranged in the positioning block, and the detection plate is provided with a positioning hole corresponding to the positioning rod.

Preferably, the detection component comprises a plurality of interception rods arranged on the bottom wall of the detection plate, the plurality of interception rods are used for preventing the gauge block from falling off from the detection holes, the plurality of interception rods are provided with fixing holes, and fixing screws are arranged in the fixing holes in a penetrating mode.

Preferably, the blocking rod is provided with a rubber cushion layer for preventing abrasion.

Preferably, the positioning piece further comprises a ceramic platform arranged on the base, a ceramic plate is arranged at the top of the ceramic platform, and a plurality of ceramic protruding blocks for detecting the bottom position of the plate are arranged on the ceramic plate.

Preferably, the detection hole comprises a strip-shaped part and a round corner part, the round corner part is arranged at the corner of the strip-shaped part, the round corner part is used for protecting the corner of the gauge block, and a sponge layer is arranged on the inner wall of the round corner part.

Preferably, the moving mechanism comprises a horizontal moving assembly arranged on the base, the horizontal moving assembly comprises a first moving part and a second moving part, the moving directions of the first moving part and the second moving part are perpendicular to each other, the first moving part comprises a first driving motor and a first sliding rail, a displacement plate is arranged on the top of the first sliding rail in a sliding manner, and the first driving motor is used for driving the displacement plate to move on the first sliding rail.

Preferably, the second moving member comprises a second driving motor and a second sliding rail, wherein the second driving motor and the second sliding rail are arranged on the displacement plate, the displacement frame is arranged on the second sliding rail in a sliding mode, and the second driving motor is used for driving the displacement frame to move on the second sliding rail.

Preferably, a handle is arranged on the detection plate.

The utility model has the beneficial effects that:

1. the gauge block is placed on the detection assembly, the gauge block is driven to move to the bottom of the measurement mechanism by the moving mechanism, automatic detection processing of the gauge block is completed, and as the detection plate is provided with a plurality of detection holes with different sizes, simultaneous detection of various types can be completed at one time, and the efficiency of the whole gauge block is further improved;

2. through setting up the detection hole, set up the detection hole into bar portion and fillet portion, avoid the detection hole to cause the damage to the gauge block, and then improve the precision that detects, carry out positioning process to the pick-up plate simultaneously, improve the stability of pick-up plate in the removal in-process.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic diagram of the overall structure of a detection plate according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of the overall structure of an embodiment of the present application;

FIG. 4 is an enlarged view of FIG. 3 at A;

fig. 5 is an enlarged view at B in fig. 3.

1, a base; 11. a handle; 2. a moving mechanism; 21. a moving assembly; 22. a displacement frame; 3. a measuring mechanism; 4. a detection assembly; 41. a detection plate; 42. a positioning piece; 421. a positioning block; 422. a positioning rod; 423. positioning holes; 43. a detection hole; 431. a strip-shaped part; 432. a rounded corner portion; 44. an interception bar; 51. a ceramic platform; 52. a ceramic plate; 53. ceramic bumps; 61. a first moving member; 62. a first driving motor; 63. a first slide rail; 71. a second moving member; 72. a second driving motor; 73. a second slide rail; 8. and a displacement plate.

Detailed Description

The present utility model will be described in further detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

Examples:

referring to fig. 1, for the detector with adapt to multiple type gauge block function that this application disclosed, including base 1, be equipped with moving mechanism 2 on the base 1, moving mechanism 2 top is equipped with measuring mechanism 3, is equipped with detection component 4 between moving mechanism 2 and the measuring mechanism 3, and the gauge block is placed on detecting component 4, and moving mechanism 2 drives the gauge block and removes measuring mechanism 3 bottom, utilizes measuring mechanism 3 to carry out the automated inspection to the gauge block and handles 11 that are convenient for move are equipped with on the pick-up plate 41.

Referring to fig. 1 to 5, the inspection assembly 4 includes an inspection plate 41 and a positioning member 42 for positioning the inspection plate 41, the gauge block is placed on the inspection plate 41, a plurality of inspection holes 43 for uniformly placing the gauge block are formed in the inspection plate 41, the inspection holes 43 include a bar portion 431 and a rounded portion 432, the rounded portion 432 is disposed at a corner of the bar portion 431, the rounded portion 432 is used for protecting a corner of the gauge block, and a sponge layer is disposed on an inner wall of the rounded portion 432;

meanwhile, the detection assembly 4 further comprises a plurality of interception rods 44 arranged on the bottom wall of the detection plate 41, wherein a plurality of interception rods 44 are arranged, a rubber cushion layer for preventing abrasion is arranged on each interception rod 44, and the plurality of interception rods 44 are arranged at the bottom of the detection hole 43; after the gauge block is placed in the detection hole 43, the blocking rod 44 at the bottom of the detection hole 43 can prevent the gauge block from falling out of the detection hole 43. The plurality of interception bars 44 are respectively provided with a fixing hole, and fixing screws are connected in the fixing holes in a threaded manner.

The moving mechanism 2 comprises a moving assembly 21 and a displacement frame 22, the displacement frame 22 is arranged on the moving assembly 21, and the moving assembly 21 is utilized to drive the displacement frame 22 to move, so that the corresponding gauge block moves to the bottom of the measuring mechanism 3, and the purpose of automatic measurement is achieved. The moving assembly 21 includes a horizontal moving assembly and a lifting moving assembly, the horizontal moving assembly is disposed on the base 1, and includes a first moving member 61 and a second moving member 71, and moving directions of the first moving member 61 and the second moving member 71 are perpendicular to each other. The lifting moving assembly is used for driving the detection plate 41 to lift up and down, the first moving member 61 comprises a first driving motor 62 and a first sliding rail 63, the top of the first sliding rail 63 is slidably provided with the displacement plate 8, and the first driving motor 62 is used for driving the displacement plate 8 to move on the first sliding rail. The second moving member 71 includes a second driving motor 72 and a second sliding rail 73 disposed on the displacement plate 8, the displacement frame 22 is slidably disposed on the second sliding rail 73, and the second driving motor 72 is used for driving the displacement frame 22 to move on the second sliding rail 73.

Referring to fig. 1 to 5, the positioning member 42 is disposed on the displacement frame 22, the positioning member 42 includes a positioning block 421 and a positioning rod 422 disposed in the positioning block 421, and the detection plate 41 is provided with a positioning hole 423 corresponding to the positioning rod 422; the positioning member 42 further comprises a ceramic platform 51 arranged on the base 1, a ceramic plate 52 is arranged on the top of the ceramic platform 51, and a plurality of ceramic protruding blocks 53 are arranged on the ceramic plate 52 and are opposite to the bottom position of the detection plate 41.

After the detection plate 41 is horizontally moved to a designated position by the horizontal movement assembly, the detection plate 41 is driven to move downwards by the lifting movement assembly 21, and in the downward movement process of the detection plate 41, the detection hole 43 is placed with the gauge block and is abutted to the ceramic lug 53 at the bottom, so that the gauge block is separated from the detection hole 43 upwards, and the measurement mechanism 3 at the top is convenient for measurement.

The above embodiments should not limit the present utility model in any way, and all technical solutions obtained by equivalent substitution or equivalent conversion fall within the protection scope of the present utility model.

Claims (8)

1. The utility model provides a detector with adapt to multiple type gauge block function which characterized in that: the device comprises a base (1), wherein a moving mechanism (2) is arranged on the base (1), a measuring mechanism (3) is arranged at the top of the moving mechanism (2), and a detecting component (4) for placing a gauge block for detection processing is arranged on the moving mechanism (2);

the detection assembly (4) comprises a detection plate (41) for placing the gauge blocks, and also comprises a positioning piece (42) for positioning the detection plate (41), wherein a plurality of detection holes (43) for uniformly placing the gauge blocks are formed in the detection plate (41);

the moving mechanism (2) comprises a moving assembly (21) used for driving the detection plate (41) to move, and further comprises a displacement frame (22) used for placing the detection plate (41), wherein the positioning piece (42) is arranged on the displacement frame (22), the positioning piece (42) comprises a positioning block (421) fixedly arranged on the displacement frame (22), and further comprises a positioning rod (422) arranged in the positioning block (421), and a positioning hole (423) corresponding to the positioning rod (422) is formed in the detection plate (41).

2. A detector with function of adapting to multiple types of gauge blocks according to claim 1, wherein: the detection assembly (4) comprises a plurality of interception rods (44) arranged on the bottom wall of the detection plate (41), the interception rods (44) are arranged, the interception rods (44) are used for preventing the gauge blocks from falling off from the detection holes (43), a plurality of fixing holes are formed in the interception rods (44), and fixing screws are arranged in the fixing holes in a penetrating mode.

3. A detector with function of adapting to multiple types of gauge blocks according to claim 2, wherein: the blocking rod (44) is provided with a rubber cushion layer for preventing abrasion.

4. A detector with function of adapting to multiple types of gauge blocks according to claim 1, wherein: the positioning piece (42) further comprises a ceramic platform (51) arranged on the base (1), a ceramic plate (52) is arranged at the top of the ceramic platform (51), and a plurality of ceramic protruding blocks (53) for detecting the bottom position of the plate (41) are arranged on the ceramic plate (52).

5. A detector with function of adapting to multiple types of gauge blocks according to claim 1, wherein: the detection hole (43) comprises a strip-shaped part (431) and a round corner part (432), the round corner part (432) is arranged at the corner of the strip-shaped part (431), the round corner part (432) is used for protecting the corner of the gauge block, and a sponge layer is arranged on the inner wall of the round corner part (432).

6. A detector with function of adapting to multiple types of gauge blocks according to claim 1, wherein: the moving mechanism (2) comprises a horizontal moving assembly arranged on the base (1), the horizontal moving assembly comprises a first moving part (61) and a second moving part (71), the moving directions of the first moving part (61) and the second moving part (71) are mutually perpendicular, the first moving part (61) comprises a first driving motor (62) and a first sliding rail, a displacement plate (8) is arranged on the top of the first sliding rail in a sliding mode, and the first driving motor (62) is used for driving the displacement plate (8) to move on the first sliding rail.

7. The detector with function of adapting to multiple types of gauge blocks according to claim 6, wherein: the second moving part (71) comprises a second driving motor (72) and a second sliding rail (73) which are arranged on the displacement plate (8), the displacement frame (22) is arranged on the second sliding rail (73) in a sliding mode, and the second driving motor (72) is used for driving the displacement frame (22) to move on the second sliding rail (73).

8. A detector with function of adapting to multiple types of gauge blocks according to claim 1, wherein: the detection plate (41) is provided with a handle (11).

Images