CN220039385U - Novel profile measuring instrument - Google Patents

Abstract

The utility model discloses a novel profile measuring instrument which comprises a 2D scanning measuring system, a 3D scanning measuring system, an X-direction moving platform, a Y-direction moving platform and a rotating device, wherein an object to be measured moves back and forth on the X-direction moving platform, the 2D scanning measuring system is positioned above the object to be measured, the 2D scanning measuring system is used for measuring data such as the length of the object, the 3D scanning measuring system is positioned at the side of the rotating device, the object to be measured rotates at a high speed under the drive of the rotating device, the 3D scanning measuring system measures the data of the object rotating at the high speed, the 3D scanning measuring system and the 2D scanning measuring system are connected with a computer system through signals, and the measured data are uploaded to the computer system for analysis, so that various size data of the object to be measured are obtained.

Description

Novel profile measuring instrument

Technical Field

The utility model belongs to the technical field of object morphology measurement, and particularly relates to a novel profile measuring instrument.

Background

In our daily life, various data such as the size of an object needs to be measured to meet our various demands, for example, the length, width, height, roughness, etc. of an object needs to be measured in the manufacturing and construction industries. The contour measuring instrument is a device for accurately measuring the size of an object, and can capture images of the object through a high-definition camera and process data through computer software so as to accurately measure the size of the object.

Disclosure of Invention

In order to solve the problems, the utility model provides a novel profile measuring instrument which comprises a measuring device and a computer system, wherein the measuring device comprises a 2D scanning measuring system, a 3D scanning measuring system, a rotating device and an X-direction moving platform, the 2D scanning measuring system is positioned above the X-direction moving platform, the 3D scanning measuring system is positioned at the side of the rotating device, an object to be measured is placed on the X-direction moving platform or the rotating device, and the 2D scanning measuring system and the 3D scanning measuring system are electrically connected with the computer system.

The novel profile measuring instrument provided by the utility model specifically comprises a platform, wherein the measuring device and the computer system are arranged on the platform; the measuring device further comprises a transverse support, a vertical support and a supporting platform, wherein the transverse support and the vertical support are vertically and fixedly connected together, and the supporting platform is fixedly arranged on the transverse support.

According to the novel profile measuring instrument provided by the utility model, in particular, the first sliding groove and the second sliding groove are formed in the supporting platform, the measuring device further comprises a first sliding block and a second sliding block, the first sliding block is arranged in the first sliding groove in a sliding manner, the second sliding block is arranged in the second sliding groove in a sliding manner, and the X-direction moving platform is fixedly lapped on the first sliding block and the second sliding block, so that the X-direction moving platform slides on the supporting platform along with the first sliding block and the second sliding block.

According to the novel profile measuring instrument provided by the utility model, in particular, the measuring device further comprises a pushing assembly, the pushing assembly comprises a fixed connecting piece and a pushing rod, the fixed connecting piece is fixedly connected with the X-direction moving platform, the pushing rod is fixedly connected with the fixed connecting piece, and the pushing rod drives the fixed connecting piece to move, so that the X-direction moving platform is driven to move back and forth on the supporting platform.

According to the novel profile measuring instrument provided by the utility model, in particular, the measuring device further comprises an object carrying platform, the object carrying platform is fixed on the X-direction moving platform, the object carrying platform is used for placing an object to be measured, and the object carrying platform moves back and forth on the supporting platform along with the X-direction moving platform.

According to the novel profile measuring instrument provided by the utility model, in particular, the 2D scanning measuring system is fixed on the vertical support, and the 2D scanning measuring system is positioned above the carrying platform.

According to the novel profile measuring instrument provided by the utility model, in particular, the measuring device further comprises a sliding connecting block and a Y-direction support, the Y-direction support is fixedly connected to the vertical support, the sliding connecting block is slidably connected to the Y-direction support, the sliding connecting block moves back and forth on the Y-direction support, and the 3D scanning measuring system is fixedly connected with the sliding connecting block, so that the 3D scanning measuring system moves back and forth on the Y-direction support.

According to the novel profile measuring instrument provided by the utility model, in particular, the rotating device comprises the rotating wheel and the clamping claw, the rotating wheel is fixedly connected with the clamping claw, the clamping claw clamps an object to be measured, and the rotating wheel drives the clamping claw to rotate at a high speed.

The working principle of the utility model is as follows: the utility model provides a novel profile measuring instrument which comprises a 2D scanning measuring system, a 3D scanning measuring system, an X-direction moving platform, a Y-direction moving platform and a rotating device, wherein an object to be measured moves back and forth on the X-direction moving platform, the 2D scanning measuring system is positioned above the object to be measured, the 2D scanning measuring system is used for measuring data such as the length of the object, the 3D scanning measuring system is positioned at the side of the rotating device, the object to be measured rotates at a high speed under the drive of the rotating device, the 3D scanning measuring system measures the data of the object rotating at the high speed, the 3D scanning measuring system and the 2D scanning measuring system are connected with a computer system through signals, and the measured data are uploaded to the computer system for analysis, so that various size data of the object to be measured are obtained.

The beneficial effects of the utility model are as follows: the novel profile measuring instrument provided by the utility model can rapidly obtain the shape and various size data of the object to be measured.

Drawings

Fig. 1 is a schematic structural diagram of a novel profile measuring apparatus provided by the utility model.

Fig. 2 is a schematic structural diagram of a measuring device of the novel profile measuring apparatus provided by the utility model.

Fig. 3 is a schematic structural diagram of a rotating device of the novel profile measuring instrument.

Detailed Description

The utility model will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present utility model. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, related operations of the present utility model have not been shown or described in the specification in order to avoid obscuring the core portions of the present utility model, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments, and the operational steps involved in the embodiments may be sequentially exchanged or adjusted in a manner apparent to those skilled in the art. Accordingly, the description and drawings are merely for clarity of describing certain embodiments and are not necessarily intended to imply a required composition and/or order.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "connected," "coupled," and "connected," as used herein, unless otherwise indicated, are intended to encompass both direct and indirect connections (couplings).

Referring to fig. 1, the present utility model provides a novel profile measuring apparatus, which is a 3D dimension measuring tool for measuring dimensions of various metal workpieces, for example, measuring height, depth, roughness, diameter and other data of a product.

The novel profile measuring instrument comprises a platform 1, a computer system 2 and a measuring device 4, wherein the computer system 2 and the measuring device 4 are fixedly arranged on the platform 1, the measuring device 4 is in electrical signal connection with the computer system 2, each item of data of a product is measured by the measuring device 4 and then transmitted to the computer system 2, and the computer system 2 calculates the size data of the product after analysis of data models such as self-contained software, algorithms and the like.

Referring to fig. 2, the measuring device 4 includes a transverse bracket 41, a vertical bracket 48, and a supporting platform 42, wherein the transverse bracket 41 and the vertical bracket 48 are vertically and fixedly connected together, and the supporting platform 42 is fixedly disposed on the transverse bracket 41.

The measuring device 4 further comprises an X-direction moving platform 43, and the X-direction moving platform 43 and the supporting platform 42 are slidably connected together. Specifically, at least two sliding grooves, namely a first sliding groove 421 and a second sliding groove 422, are formed on the supporting platform 42.

The measuring device 4 further comprises at least two sliding blocks, namely a first sliding block 451 and a second sliding block 452, wherein the first sliding block 451 is arranged in the first sliding groove 421 in a sliding manner, and the second sliding block 452 is arranged in the second sliding groove 422 in a sliding manner. The X-direction moving platform 43 is fixedly overlapped on the first sliding block 451 and the second sliding block 452, so that the X-direction moving platform 43 slides on the supporting platform 42 following the first sliding block 451 and the second sliding block 452. The direction in which the X-direction moving platform 43 slides back and forth on the support platform 42 is named the X-direction.

The measuring device 4 further comprises a pushing component, and the X-direction moving platform 43 slides back and forth on the supporting platform 42 under the pushing of the pushing component. The pushing assembly comprises a fixed connecting piece 461 and a pushing rod 462, the fixed connecting piece 461 is fixedly connected with the X-direction moving platform 43, the pushing rod 462 is fixedly connected with the fixed connecting piece 461, the pushing rod 462 is connected with a power source such as a cylinder or a motor, and the pushing rod 462 drives the fixed connecting piece 461 to move, so that the X-direction moving platform 43 is driven to move back and forth on the supporting platform 42.

The measuring device 4 further includes a carrying platform 47, where the carrying platform 47 is fixed on the X-direction moving platform 43, and the carrying platform 47 is used for placing an object to be measured. The carrying platform 47 moves back and forth on the supporting platform 42 along with the X-direction moving platform 43, that is, the carrying platform 47 moves back and forth along the X-direction.

The measuring device 4 further comprises a 2D scanning measuring system 49, the 2D scanning measuring system 49 is fixed on the vertical support 48, and the 2D scanning measuring system 49 is located above the carrying platform 47. The 2D scanning and measuring system 49 is electrically connected to the computer system 2, and the 2D scanning and measuring system 49 measures the data of the object to be measured on the carrying platform 47 and sends the measured data to the computer system 2 for calculation.

The measuring device 4 further includes a 3D scanning measuring system 410 and a rotating device 411, the 3D scanning measuring system 410 is located at a side of the rotating device 411, the object to be measured is placed on the rotating device 411, and the 3D scanning measuring system 410 scans the object to be measured on the rotating device 411. The 3D scanning measurement system 410 is electrically connected to the computer system 2, and the 3D scanning measurement system 410 scans data such as the size of the object and sends the scanned data to the computer system 2 for analysis.

The measuring device 4 further comprises a sliding connection block 412 and a Y-direction support 413, the Y-direction support 413 is fixedly connected to the vertical support 48, the sliding connection block 412 is slidably connected to the Y-direction support 413, the sliding connection block 412 moves back and forth on the Y-direction support 413, and the 3D scanning measurement system 410 is fixedly connected with the sliding connection block 412, so that the 3D scanning measurement system 410 moves back and forth on the Y-direction support 413. The direction in which the 3D scanning measurement system 410 moves on the Y-direction carriage 413 is set as the Y-direction.

Referring to fig. 3, the rotating device 411 includes a rotating wheel 4110 and a clamping jaw 4111, wherein the rotating wheel 4110 is fixedly connected with the clamping jaw 4111, the clamping jaw 4111 clamps an object to be tested, and the rotating wheel 4110 drives the clamping jaw 4111 to rotate at a high speed.

The X-direction moving platform 43 of the novel profile measuring instrument moves back and forth on the supporting platform 42, and the 3D scanning measuring system 410 moves on the Y-direction bracket 413, which are controlled by the computer system 2, so as to achieve the purpose of automatic control.

The rotating device 411 drives the object to be measured to rotate at a high speed, the 3D scanning measurement system 410 scans the object to be measured rotating at a high speed, and then uploads the scanned data to the computer system 2. The 3D scanning measurement system 410 performs overall surface scanning on the product, after obtaining 3D morphology data, specifies a tangent line on the 3D morphology, and obtains line roughness to perform calculation and measurement of Ra value.

The 2D scanning measurement system 49 is used for measuring the length, height, depth and other data of the object to be measured.

The working principle of the utility model is as follows: the utility model provides a novel profile measuring instrument which comprises a 2D scanning measuring system, a 3D scanning measuring system, an X-direction moving platform, a Y-direction moving platform and a rotating device, wherein an object to be measured moves back and forth on the X-direction moving platform, the 2D scanning measuring system is positioned above the object to be measured, the 2D scanning measuring system is used for measuring data such as the length of the object, the 3D scanning measuring system is positioned at the side of the rotating device, the object to be measured rotates at a high speed under the drive of the rotating device, the 3D scanning measuring system measures the data of the object rotating at the high speed, the 3D scanning measuring system and the 2D scanning measuring system are connected with a computer system through signals, and the measured data are uploaded to the computer system for analysis, so that various size data of the object to be measured are obtained.

The novel profile measuring instrument provided by the utility model can rapidly obtain the shape and various size data of the object to be measured.

The foregoing description of the utility model has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the utility model pertains, based on the idea of the utility model.

Claims (2)

1. The novel profile measuring instrument is characterized by comprising a measuring device and a computer system, wherein the measuring device comprises a 2D scanning and measuring system, a 3D scanning and measuring system, a rotating device and an X-direction moving platform, the 2D scanning and measuring system is positioned above the X-direction moving platform, the 3D scanning and measuring system is positioned at the side of the rotating device, an object to be measured is placed on the X-direction moving platform or the rotating device, and the 2D scanning and measuring system and the 3D scanning and measuring system are electrically connected with the computer system;

the measuring device and the computer system are arranged on the platform; the measuring device further comprises a transverse bracket, a vertical bracket and a supporting platform, wherein the transverse bracket and the vertical bracket are vertically and fixedly connected together, and the supporting platform is fixedly arranged on the transverse bracket;

the X-direction moving platform is fixedly lapped on the first sliding block and the second sliding block, so that the X-direction moving platform slides on the supporting platform along with the first sliding block and the second sliding block;

the measuring device further comprises a pushing assembly, the pushing assembly comprises a fixed connecting piece and a pushing rod, the fixed connecting piece is fixedly connected with the X-direction moving platform, the pushing rod is fixedly connected with the fixed connecting piece, and the pushing rod drives the fixed connecting piece to move so as to drive the X-direction moving platform to move back and forth on the supporting platform;

the measuring device further comprises an object carrying platform, wherein the object carrying platform is fixed on the X-direction moving platform and is used for placing an object to be measured, and the object carrying platform moves back and forth on the supporting platform along with the X-direction moving platform;

the 2D scanning and measuring system is fixed on the vertical support, and the 2D scanning and measuring system is positioned above the carrying platform;

the measuring device further comprises a sliding connection block and a Y-direction support, the Y-direction support is fixedly connected to the vertical support, the sliding connection block is slidably connected to the Y-direction support, the sliding connection block moves back and forth on the Y-direction support, and the 3D scanning measurement system is fixedly connected with the sliding connection block, so that the 3D scanning measurement system moves back and forth on the Y-direction support.

2. The novel profile measuring instrument according to claim 1, wherein the rotating device comprises a rotating wheel and a clamping claw, the rotating wheel is fixedly connected with the clamping claw, the clamping claw clamps an object to be measured, and the rotating wheel drives the clamping claw to rotate at a high speed.