CN219284263U - Anchor clamps for roughness measurement equipment - Google Patents

Abstract

The utility model discloses a clamp for roughness detection equipment, which is arranged on an equipment base, and comprises a connector capable of adjusting the height up and down, wherein a multidirectional adjusting assembly is arranged at the top of the connector, and a flexible clamping body is arranged on the multidirectional adjusting assembly. Structural damage is avoided by adopting the flexible clamping structure, and meanwhile, the structure is adjustable in height, can be accurately operated front, back, left and right, and further is convenient for detecting the surface roughness of a sample.

Description

Anchor clamps for roughness measurement equipment

Technical Field

The utility model belongs to the technical field of roughness detection, and particularly relates to a clamp which adopts flexible clamping to avoid structural damage of a structure, is adjustable in height, can be accurately operated front, back, left and right and is convenient for detecting the surface roughness of a sample.

Background

The conventional roughness detecting device is provided with a table and a detector for detecting roughness, and detects surface roughness by moving a probe on the detector. But lacks a fixture to facilitate sample testing. The retrieved CN111085956A relates to a fixture and a surface roughness testing device, comprising: a fixing seat; the rotating seat is rotatably arranged on the fixed seat; the driving mechanism is arranged on the rotating seat and used for driving the rotating seat to rotate relative to the fixed seat; the clamping mechanism comprises at least three clamping arms and a transmission assembly, the clamping arms are rotationally connected with the rotating seat through the transmission assembly, and the clamping arms can synchronously rotate close to or rotate away from each other. When the sizes of buttons needing to be clamped and fixed are different, the sizes of the areas between the clamping arms are adjusted only by correspondingly adjusting the mutual rotating distance of the clamping arms, so that the buttons can be placed between the clamping arms to meet the clamping and fixing requirements, and the applicability is high. The clamp can realize clamping of a sample, but the clamp is rigidly clamped and provides power output of clamping function through the driving mechanism, and the rigid clamping easily causes damage to the thin plate/sheet sample structure, so that structural change occurs on the surface, the coarse measurement value is influenced too much, and the detection precision is low.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a clamp for roughness detection equipment, which adopts flexible clamping to avoid structural damage to a structure, is adjustable in height, can be accurately operated in front-back, left-right and convenient to detect the surface roughness of a sample.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a roughness is anchor clamps for check out test set, this anchor clamps are installed on the equipment base, and this anchor clamps include the connector that can adjust height from top to bottom, and multi-direction regulation assembly is installed at the top of connector, installs flexible clamping body on the multi-direction regulation assembly.

Further preferred scheme, the connector includes fixed part and elevating part, and the bottom of fixed part is provided with socket joint body and socket joint body's top is provided with the magnetism and inhale the body, is provided with the guiding part that is located the top on the fixed part and rotates the adjustment portion who arranges in the bottom, and elevating part vertical socket joint is installed in guiding part and through screw thread and adjustment portion matching.

Further preferably, the multi-direction adjusting assembly comprises an adjusting structure body I and an adjusting structure body II which are arranged in an orthogonal mode, and the adjusting structure body I is arranged at the top of the connecting body;

the first adjusting structure body is provided with an adjusting groove I and a pushing body I which is arranged through threads, the second adjusting structure body is arranged on the first adjusting structure body in a sliding mode and is partially positioned in the first adjusting groove, the first adjusting groove is internally provided with a first resetting body, and the end portion of the first resetting body is connected to the side portion of the second adjusting structure body;

the second adjusting structure body is provided with a second adjusting groove and a second pushing body which is arranged through threads, the clamping body is arranged on the second adjusting structure body in a sliding mode and is partially located in the second adjusting groove, the second adjusting groove is internally provided with a second resetting body, and the end portion of the second resetting body is connected to the side portion of the clamping body.

Further preferably, the first pushing body and the second pushing body comprise fixed rules fixedly installed on the corresponding adjusting structure bodies and ejector rods which are connected to the fixed rules in a threaded mode and the free ends of which extend to the inner parts of the corresponding adjusting grooves.

Further preferable scheme, be provided with the cover body that covers the fixed ruler tip on the ejector pin and cover the scale value that the hoop was laid on the body.

Further preferably, the flexible clamping body comprises a mounting body which is arranged on the multi-direction adjusting assembly in a sliding mode, the mounting body is provided with a movable body and a pressing body in a sliding mode, the mounting body is provided with two screws which penetrate through the movable body and the pressing body in a threaded connection mode, and an elastic body is sleeved on the screws between the movable body and the pressing body.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model adopts the flexible clamping body, is connected to the mounting body through the screw rod by the screw thread, and further enables the movable body to approach the screw thread end by properly adjusting the connection length of the screw rod, and extrudes the elastic body, so that the elastic body can clamp the sample, and structural deformation of the sample caused by direct rigid clamping in the prior art is avoided. The multi-direction adjustment combination body is matched, the front and back positions and the left and right positions of the sample can be adjusted, the roughness detection can be facilitated, the height of the sample can be adjusted through the height adjustment of the connecting body, and meanwhile the roughness detection can be conveniently used for roughness detection.

The utility model adopts the connector with height adjustment, and the lifting part is adjusted up and down along the guiding part by the rotation of the adjusting part, so that the height adjustment of the multi-directional assembly is realized, and meanwhile, the magnetic attraction at the bottom can be effectively fixed after the socket joint body is inserted, so that the clamp is prevented from shifting in the detection process.

The utility model adopts a multidirectional adjusting assembly which is accurately adjusted in the front-back and left-right directions, the end part of the pushing body I is positioned in the adjusting groove I and is abutted against the side part of the adjusting structure II 32, and the pushing body is matched with the resetting body I (spring) to adjust the position of the adjusting groove I of the adjusting structure II; the end part of the pushing body II is positioned in the regulating groove II and is abutted against the side part of the mounting body of the flexible clamping body, the mounting body of the flexible clamping body can be regulated in the regulating groove II through the pushing body II matched with the resetting body II (spring), and the front, back, left and right position regulation of the flexible clamping body is realized through the matched regulating structure I; the position can be accurately adjusted by matching the scale value on the fixed ruler with the scale value on the cover body, the ejector rod is a screw rod, and the end part of the ejector rod is abutted to the side parts of the second adjusting structure body and the mounting body.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the overall structure of the clamp of the present utility model;

FIG. 3 is a schematic view of the overall structure of the first adjusting structure of the present utility model;

FIG. 4 is a schematic view of the overall structure of a second adjusting structure of the present utility model;

FIG. 5 is a schematic view of the overall structure of the flexible clamping body of the present utility model;

FIG. 6 is a schematic view of the bottom structure of the connector of the present utility model;

FIG. 7 is a schematic view showing the overall structure of the pushing body of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Example 1: as shown in fig. 1 to 6, a clamp for a roughness detecting device is mounted on a device base 10, the clamp includes a connector 20 capable of vertically adjusting a height, a multidirectional adjusting assembly 30 is mounted on the top of the connector 20, a flexible clamping body 40 is mounted on the multidirectional adjusting assembly 30, the flexible clamping body 40 includes a mounting body 41 slidingly disposed on the multidirectional adjusting assembly 30, a movable body 42 and a pressing body 43 are slidingly disposed on the mounting body 41, two screws 44 penetrating the movable body 42 and the pressing body 43 are screwed on the mounting body 41, and an elastic body 45 (spring) is sleeved on the screws 44 between the movable body 42 and the pressing body 43. The movable body 42 is close to the threaded end of the screw 44 through the screw 44 connected to the mounting body 41 through threads, and the movable body 44 is further closed to the threaded end of the screw 44 through proper connection length of the screw 44, and the elastic body 45 is extruded, so that a sample can be clamped through the elastic body 45, and structural deformation of the sample caused by direct rigid clamping in the prior art is avoided. The multi-direction adjustment assembly 30 is matched to adjust the front-back and left-right positions of the sample for roughness detection, and the height of the sample can be adjusted through the height adjustment of the connector 20, so that the roughness detection is convenient to use.

The connector 20 comprises a fixing part 21 and a lifting part 22, wherein a socket body 23 is arranged at the bottom of the fixing part 21, a magnetic attraction body 24 is arranged at the top of the socket body 23, a guide part 26 positioned at the top and an adjusting part 25 rotatably arranged at the bottom are arranged on the fixing part 21, and the lifting part 22 is vertically inserted in the guide part 26 and is installed in a matched mode through threads and the adjusting part 25. The lifting part 22 is adjusted up and down along the guide part 26 by the rotation of the adjusting part 25, so that the height of the multi-directional assembly 30 is adjusted, and meanwhile, the magnetic attraction body 24 at the bottom can be effectively fixed after the socket body 23 is plugged, so that the clamp is prevented from shifting in the detection process.

The multidirectional adjusting assembly 30 comprises an adjusting structure body I31 and an adjusting structure body II 32 which are arranged in an orthogonal mode, wherein the adjusting structure body I31 is arranged at the top of the connecting body 20;

the first adjusting structure body 31 is provided with an adjusting groove 311 and a pushing body 312 which is arranged through threads, the second adjusting structure body 32 is arranged on the first adjusting structure body 31 in a sliding mode and is partially positioned in the adjusting groove 311, a first reset body 313 is arranged in the adjusting groove 311, and the end portion of the first reset body 313 is connected to the side portion of the second adjusting structure body 32; the end of the pushing body 312 is located in the first adjusting groove 311 and abuts against the side of the second adjusting structure 32, and the pushing body 312 is matched with the first resetting body 313 (spring) to adjust the position of the second adjusting structure 32 in the first adjusting groove 311.

The second adjusting structure body 32 is provided with a second adjusting groove 321 and a second pushing body 322 which is arranged through threads, the clamping body 40 is arranged on the second adjusting structure body 32 in a sliding mode and is partially positioned in the second adjusting groove 321, a second resetting body 323 is arranged in the second adjusting groove 321, and the end portion of the second resetting body 323 is connected to the side portion of the clamping body 40. The end of the pushing body II 322 is located in the adjusting groove II 321 and is abutted to the side part of the mounting body 41 of the flexible clamping body 40, the mounting body 41 of the flexible clamping body 40 can be adjusted in the adjusting groove II 321 by matching the pushing body II 322 with the resetting body II 323 (spring), and the front, back, left and right position adjustment of the flexible clamping body 40 is realized by matching with the adjusting structure I31.

Example 2

The following modifications were made for the position adjustment of the precisely controlled test specimen on the basis of example 1: as shown in fig. 7, the pushing body one 312 and the pushing body two 322 include a fixed rule 33 fixedly installed on the corresponding adjusting structure body and a push rod 34 screwed on the fixed rule 33 and having a free end extending to the inside of the corresponding adjusting groove, wherein the push rod 34 is provided with a cover body 35 covering the end of the fixed rule 33 and scale values circumferentially distributed on the cover body 35. The position can be accurately adjusted by matching the scale value on the fixed ruler 33 with the scale value on the cover body 35, and the ejector rod 34 is a screw rod and the end part of the ejector rod is abutted against the side parts of the second adjusting structure body 32 and the mounting body 41.

The above description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto. The substitutions may be partial structures, devices, or method steps, or may be a complete solution. The technical proposal and the utility model concept are equivalent to or changed in accordance with the utility model, and the utility model is covered in the protection scope of the utility model.

Claims (6)

1. The utility model provides a roughness is anchor clamps for check out test set, this anchor clamps are installed on the equipment base, and its characterized in that, this anchor clamps include the connector that can adjust height from top to bottom, and multi-direction regulation assembly is installed at the top of connector, installs flexible clamping body on the multi-direction regulation assembly.

2. The fixture for roughness measurement equipment according to claim 1, wherein the connecting body comprises a fixing portion and a lifting portion, the bottom of the fixing portion is provided with a socket body, the top of the socket body is provided with a magnetic attraction body, the fixing portion is provided with a guiding portion positioned at the top and an adjusting portion rotatably arranged at the bottom, and the lifting portion is vertically inserted in the guiding portion and is installed in a matched mode through threads and the adjusting portion.

3. The fixture for roughness detecting equipment according to claim 1, wherein the multidirectional adjusting assembly comprises an adjusting structure body 1 and an adjusting structure body two which are orthogonally arranged, the adjusting structure body 1 being mounted on top of the connecting body;

the first adjusting structure body is provided with an adjusting groove I and a pushing body I which is arranged through threads, the second adjusting structure body is arranged on the first adjusting structure body in a sliding mode and is partially positioned in the first adjusting groove, the first adjusting groove is internally provided with a first resetting body, and the end portion of the first resetting body is connected to the side portion of the second adjusting structure body;

the second adjusting structure body is provided with a second adjusting groove and a second pushing body which is arranged through threads, the clamping body is arranged on the second adjusting structure body in a sliding mode and is partially located in the second adjusting groove, the second adjusting groove is internally provided with a second resetting body, and the end portion of the second resetting body is connected to the side portion of the clamping body.

4. The fixture for roughness detecting equipment according to claim 3, wherein the first pushing body and the second pushing body comprise a fixed rule fixedly mounted on the corresponding adjusting structure body and a push rod screwed on the fixed rule and having a free end extending into the corresponding adjusting groove.

5. The fixture for roughness measurement equipment of claim 4, wherein the ejector rod is provided with a cover body covering the end part of the fixed ruler, and scale values are circumferentially distributed on the cover body.

6. The fixture for roughness detecting equipment according to claim 1, wherein the flexible clamping body comprises a mounting body which is arranged on the multi-direction adjusting assembly in a sliding manner, the mounting body is provided with a movable body and a pressing body in a sliding manner, the mounting body is connected with two screws penetrating through the movable body and the pressing body through threads, and the screws between the movable body and the pressing body are sleeved with an elastic body.

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