CN215952472U - Gantry double-X-axis machine type optical image measuring instrument with positioning function - Google Patents

Abstract

The application relates to optical image measuring instrument technical field discloses a two X axle model optical image measuring instruments in longmen with locate function, including measuring table, optical image measuring instrument, locating component and mobile device, mobile device slides and sets up at the top of measuring the table, and the mobile device wholly is 20866a type structure setting, locating component sets up in the bottom of measuring the table, and locating component's top runs through two inner walls of measuring table and mobile device and laminates mutually, optical image measuring instrument is located the top of measuring the table, and optical image measuring instrument sets up on mobile device. The utility model has the advantages that: through the arrangement of the positioning assembly, the workpiece can be positioned and clamped, the workpiece is prevented from being affected by external force and generating deflection, and the measurement precision of the workpiece is improved.

Description

Gantry double-X-axis machine type optical image measuring instrument with positioning function

Technical Field

The application relates to the technical field of optical image measuring instruments, in particular to a gantry double-X-axis machine type optical image measuring instrument with a positioning function.

Background

An image measuring instrument is a kind of coordinate measuring machine, also called an image probe coordinate measuring machine. The method utilizes an optical microscope to carry out free magnification imaging on an object to be detected, and transmits an amplified image of the object to be detected to a computer connected with an instrument through a CCD (charge coupled device) camera system so as to carry out non-contact and high-efficiency detection on geometric quantities of various complex workpieces. Image measuring instruments have been differentiated between automatic and manual products. With the development of automatic control technology, manual image measuring instruments are basically replaced by automatic image measuring instruments. The main mechanical structure of the image measuring instrument is called a frame and comprises mechanical structures such as a working platform, an upright post, a bridge frame, a shell and the like. The frame of the automatic image measuring instrument mainly comprises a column type and a gantry type.

In the use process of the existing gantry-type image measuring instrument, a measured object is easily affected by external force, so that the object is deflected, and the measuring precision of the gantry-type image measuring instrument on the object is influenced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a two X axle model optical image measuring apparatu in longmen with locate function, including measuring table, optical image measuring apparatu, locating component and mobile device, mobile device slides and sets up at the top of measuring the table, and the mobile device wholly is 20866a type structure setting, locating component sets up in the bottom of measuring the table, and locating component's top runs through two inner walls of measuring table and mobile device and laminate mutually, optical image measuring apparatu is located the top of measuring the table, and optical image measuring apparatu sets up on mobile device.

Furthermore, the positioning component comprises a positioning motor, a vertical plate, a positioning gear, an L-shaped plate, a transverse plate, two positioning plates and two sliding blocks, the two positioning plates are positioned on the measuring table at intervals, the two sliding blocks are arranged at the bottom of the measuring table at intervals in a sliding manner, the tops of the two sliding blocks penetrate through the measuring table and are respectively fixedly connected with the two positioning plates, the transverse plate and the L-shaped plate are respectively arranged at the bottoms of the two sliding blocks, the transverse plates and the L-shaped plates are arranged in a staggered manner, the positioning gears are positioned between the transverse plates and the L-shaped plates, the bottom of the transverse plates and the top of the L-shaped plates are both provided with positioning racks, and the two positioning racks are meshed with the positioning gear, the vertical plate is arranged at the bottom of the measuring table, and the riser is located the side of positioning gear, the location motor is installed on the lateral wall of riser, and the output of location motor runs through riser and positioning gear fixed connection.

Furthermore, the moving device comprises a moving motor, an L-shaped frame, two synchronous belts, a translation assembly, a lifting assembly, two X-axis screws, two synchronous wheels and two guide seats, wherein the top of the measuring table is provided with two guide cavities arranged at intervals, the two X-axis screws are respectively positioned in the two guide cavities, one end of each X-axis screw penetrates through the measuring table and extends outwards, the other end of each X-axis screw is rotatably connected with the inner wall of the measuring table, the L-shaped frame is arranged on the outer wall of the measuring table, the moving motor is arranged on the side wall of the L-shaped frame, the output end of the moving motor penetrates through the L-shaped frame and is fixedly connected with one X-axis screw, the two synchronous wheels are respectively sleeved on the two X-axis screws, the synchronous belts are sleeved on the two synchronous wheels, and the two guide seats are symmetrically arranged on the measuring table in a sliding manner, and the bottoms of the two guide seats penetrate through the measuring table and extend into the two guide cavities respectively, the bottoms of the two guide seats are sleeved on the two X-axis screw rods respectively, the translation assembly is located in the two guide seats, two ends of the translation assembly are fixedly connected with the two guide seats respectively, and the lifting assembly is arranged on the translation assembly in a sliding mode.

Further, the translation subassembly includes translation board, T type piece, translation motor and translation gear, the translation board is located between two guide holders, and the both ends of translation board respectively with two guide holder fixed connection, T type piece slides and sets up the top at the translation board, translation motor sets up the top at T type piece, the translation gear sets up on translation motor's output, the translation rack is installed at the top of translation board, the translation gear meshes with the translation rack mutually, lifting unit installs on the lateral wall of T type piece.

Furthermore, lifting unit includes lead screw slip table and accessory plate, the lead screw slip table is located the side of translation board, and the lateral wall fixed connection of lead screw slip table and T type piece, the accessory plate is the level form and sets up on the removal end of lead screw slip table, optical image measuring apparatu sets up the bottom at the accessory plate.

Furthermore, a rubber base plate is mounted on the side wall of each positioning plate.

The embodiment of the application adopts at least one technical scheme which can achieve the following beneficial effects:

one of the two positioning plates is driven to synchronously move relatively by connecting the two sliding blocks, so that the workpiece on the measuring table is positioned and clamped, the workpiece is fixed on the measuring table, the workpiece is prevented from being acted by external force, the inclined condition is generated, and the measuring precision of the workpiece is improved.

Secondly, two positioning plates are driven to synchronously move relatively by the connection of two sliding blocks, so that a workpiece on a measuring table is positioned and clamped, the workpiece is fixed on the measuring table, when the workpiece is fixed on the measuring table, a moving motor drives an X-axis screw rod to rotate, the two synchronous wheels are sleeved by a synchronous belt, so that the other X-axis screw rod also synchronously rotates, two guide seats sleeved on the two X-axis screw rods drive an optical image measuring instrument to move to the upper part of the workpiece, the X-axis movement of the optical image measuring instrument is realized, when the optical image measuring instrument moves to the upper part of the workpiece, a translation motor drives a translation gear to move back and forth on a translation rack, the optical image measuring instrument is driven to move back and forth, the surface of the workpiece is scanned and detected, and the Z-axis movement of the optical image measuring instrument is realized, simultaneously, lead screw slip table drive accessory plate area optics image measuring apparatu descends, makes optics image measuring apparatu can scan the measurement to the work piece, has realized the Y axle of optics image measuring apparatu and has removed for optics image measuring apparatu can detect the any place on work piece surface, has improved this practical practicality.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a partial perspective view of the present invention;

FIG. 3 is a schematic perspective view of a positioning assembly according to the present invention;

FIG. 4 is a schematic perspective view of a mobile device according to the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

fig. 6 is an enlarged view at B in fig. 4.

In the figure: the measuring table comprises a measuring table 1, a guide cavity 11, an optical image measuring instrument 2, a positioning assembly 3, a positioning motor 31, a vertical plate 32, a positioning gear 33, an L-shaped plate 34, a transverse plate 35, a positioning plate 36, a sliding block 37, a positioning rack 38, a rubber base plate 39, a moving device 4, a moving motor 41, an L-shaped frame 42, a synchronous belt 43, a translation assembly 44, a translation plate 441, a T-shaped block 442, a translation motor 443, a translation gear 444, a translation rack 445, a lifting assembly 45, a screw rod sliding table 451, an auxiliary plate 452, an X-axis screw rod 46, a synchronous wheel 47 and a guide seat 48.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

In the embodiment, as shown in fig. 1 to 6, a gantry dual-X-axis machine type optical image measuring instrument with a positioning function includes a measuring table 1, an optical image measuring instrument 2, a positioning component 3 and a mobile device 4, wherein the mobile device 4 is slidably disposed at the top of the measuring table 1, and the mobile device 4 is integrally disposed in a 20866;, the positioning component 3 is disposed at the bottom of the measuring table 1, the top of the positioning component 3 penetrates through the measuring table 1 and is attached to two inner walls of the mobile device 4, the optical image measuring instrument 2 is disposed above the measuring table 1, and the optical image measuring instrument 2 is disposed on the mobile device 4.

Specifically, locating component 3 includes positioning motor 31, riser 32, positioning gear 33, L template 34, diaphragm 35, two locating plates 36 and two gliding pieces 37, two locating plates 36 are the interval and are located measurement table 1, two gliding pieces 37 are the interval and slide and set up in the bottom of measurement table 1, and the top of two gliding pieces 37 all runs through measurement table 1 and respectively with two locating plates 36 fixed connection, diaphragm 35 and L template 34 set up respectively in the bottom of two gliding pieces 37, and diaphragm 35 and L template 34 are the crisscross setting, positioning gear 33 is located between diaphragm 35 and L template 34, positioning rack 38 is all installed with the top of L template 34 to the bottom of diaphragm 35, and two positioning rack 38 all mesh with positioning gear 33, riser 32 sets up in the bottom of measurement table 1, and riser 32 is located positioning gear 33's side, the utility model discloses a measuring table, including riser 32, positioning motor 31, positioning gear 33, diaphragm 35 and L template 34, positioning motor 31 drives positioning gear 33 and rotates, through positioning gear 33 and the setting of two positioning rack 38 engaged with, positioning motor 31's output runs through riser 32 and positioning gear 33 fixed connection, be located measuring table 1 when the work piece, positioning motor 31 drives positioning gear 33 and rotates, through positioning gear 33 and the setting of two positioning rack looks engagements, make diaphragm 35 and L template 34 carry out relative movement, drive two locating plates 36 through the connection of two gliding pieces 37 and carry out relative movement in step, thereby will measure the work piece on the table 1 and fix a position the centre gripping, make the work piece fix on measuring table 1.

Specifically, the moving device 4 includes a moving motor 41, an L-shaped frame 42, a synchronous belt 43, a translation assembly 44, a lifting assembly 45, two X-axis screws 46, two synchronous wheels 47 and two guide seats 48, two guide cavities 11 are formed at the top of the measuring table 1, the two X-axis screws 46 are respectively located in the two guide cavities 11, one end of each X-axis screw 46 penetrates through the measuring table 1 and extends outwards, the other end of each X-axis screw 46 is rotatably connected with the inner wall of the measuring table 1, the L-shaped frame 42 is arranged on the outer wall of the measuring table 1, the moving motor 41 is arranged on the side wall of the L-shaped frame 42, the output end of the moving motor 41 penetrates through the L-shaped frame 42 and is fixedly connected with one X-axis screw 46, the two synchronous wheels 47 are respectively sleeved on the two X-axis screws 46, the synchronous belt 43 is sleeved on the two synchronous wheels 47, the two guide seats 48 are symmetrically and slidably arranged on the measuring table 1, the bottoms of the two guide seats 48 penetrate through the measuring table 1 and extend into the two guide cavities 11 respectively, the bottoms of the two guide seats 48 are sleeved on the two X-axis screws 46 respectively, the translation assembly 44 is positioned in the two guide seats 48, the two ends of the translation assembly 44 are fixedly connected with the two guide seats 48 respectively, the lifting assembly 45 is slidably arranged on the translation assembly 44, when a workpiece is fixed on the measuring table 1, the moving motor 41 drives one X-axis screw 46 to rotate, the other X-axis screw 46 is enabled to synchronously rotate through the arrangement that the synchronous belt 43 is sleeved on the two synchronous wheels 47, so that the two guide seats 48 sleeved on the two X-axis screws 46 drive the translation assembly 44, the lifting assembly 45 and the optical image measuring instrument 2 to move to the position above the workpiece, and the X-axis movement of the optical image measuring instrument 2 is realized, meanwhile, the arrangement of the two X-axis screws 46 makes the optical image measuring instrument 2 more convenient to move.

Specifically, the translation assembly 44 includes a translation plate 441, a T-shaped block 442, a translation motor 443, and a translation gear 444, the translation plate 441 is located between the two guide holders 48, two ends of the translation plate 441 are respectively fixedly connected to the two guide holders 48, the T-shaped block 442 is slidably disposed on the top of the translation plate 441, the translation motor 443 is disposed on the top of the T-shaped block 442, the translation gear 444 is disposed on an output end of the translation motor 443, a translation rack 445 is mounted on the top of the translation plate 441, the translation gear 444 is engaged with the translation rack 445, the lifting assembly 45 is mounted on a side wall of the T-shaped block 442, and after the optical image measuring instrument 2 moves above the workpiece, the translation motor 443 drives the translation gear 444 to move back and forth on the translation rack 445, so as to drive the T-shaped block 442, the lifting assembly 45, and the optical image measuring instrument 2 to move back and forth, the surface of the workpiece is scanned and detected, and the Z-axis movement of the optical image measuring instrument 2 is realized.

Specifically, the lifting assembly 45 includes a screw rod sliding table 451 and an auxiliary plate 452, the screw rod sliding table 451 is located beside the translation plate 441, the screw rod sliding table 451 is fixedly connected to a side wall of the T-shaped block 442, the auxiliary plate 452 is horizontally disposed on a moving end of the screw rod sliding table 451, the optical image measuring instrument 2 is disposed at a bottom of the auxiliary plate 452, when the optical image measuring instrument 2 is located above a workpiece, the screw rod sliding table 451 drives the auxiliary plate 452 to lower the optical image measuring instrument 2, so that the optical image measuring instrument 2 can scan and measure the workpiece, and Y-axis movement of the optical image measuring instrument 2 is achieved.

Specifically, every all install rubber backing plate 39 on the lateral wall of locating plate 36, through rubber backing plate 39's setting, can avoid two locating plates 36 to cause the condition appearance of damaging to some fragile work pieces.

The working process of the embodiment of the application is as follows: when a workpiece is positioned on the measuring table 1, the positioning motor 31 drives the positioning gear 33 to rotate, the positioning gear 33 is meshed with the two positioning racks 38, the transverse plate 35 and the L-shaped plate 34 move relatively, the two positioning plates 36 are driven to synchronously move relatively through the connection of the two sliding blocks 37, so that the workpiece on the measuring table 1 is positioned and clamped, the workpiece is fixed on the measuring table 1, when the workpiece is fixed on the measuring table 1, the moving motor 41 drives one X-axis screw rod 46 to rotate, the two synchronous wheels 47 are sleeved through the synchronous belt 43, the other X-axis screw rod 46 also rotates synchronously, so that the two guide seats 48 sleeved on the two X-axis screw rods 46 drive the optical image measuring instrument 2 to move to the position above the workpiece, the X-axis movement of the optical image measuring instrument 2 is realized, after the optical image measuring instrument 2 moves to the position above the workpiece, the translation motor 443 drives the translation gear 444 to move back and forth on the translation rack 445, so as to drive the optical image measuring instrument 2 to move back and forth, scan and detect the surface of the workpiece, and realize the Z-axis movement of the optical image measuring instrument 2, meanwhile, the screw sliding table 451 drives the auxiliary plate 452 to lower with the optical image measuring instrument 2, so that the optical image measuring instrument 2 can scan and measure the workpiece, the Y-axis movement of the optical image measuring instrument 2 is realized, and the optical image measuring instrument 2 can measure any position on the surface of the workpiece.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (6)

1. The utility model provides a two X axle model type optical image measuring apparatuss in longmen with locate function which characterized in that: including measuring table (1), optical image measuring apparatu (2), locating component (3) and mobile device (4), mobile device (4) slide to set up at the top of measuring table (1), and mobile device (4) wholly is 20866;, type structure setting, locating component (3) set up in the bottom of measuring table (1), and the top of locating component (3) runs through two inner walls of measuring table (1) and mobile device (4) and laminate mutually, optical image measuring apparatu (2) are located the top of measuring table (1), and optical image measuring apparatu (2) set up on mobile device (4).

2. The optical image measuring instrument of gantry type with positioning function according to claim 1, wherein: the positioning assembly (3) comprises a positioning motor (31), a vertical plate (32), a positioning gear (33), an L-shaped plate (34), a transverse plate (35), two positioning plates (36) and two sliding blocks (37), wherein the positioning plates (36) are positioned on the measuring table (1) at intervals, the sliding blocks (37) are arranged at the bottom of the measuring table (1) at intervals in a sliding manner, the tops of the two sliding blocks (37) penetrate through the measuring table (1) and are fixedly connected with the two positioning plates (36) respectively, the transverse plate (35) and the L-shaped plate (34) are arranged at the bottoms of the two sliding blocks (37) respectively, the transverse plate (35) and the L-shaped plate (34) are arranged in a staggered manner, the positioning gear (33) is positioned between the transverse plate (35) and the L-shaped plate (34), and the bottoms of the transverse plate (35) and the top of the L-shaped plate (34) are provided with positioning racks (38), and two location racks (38) all mesh with positioning gear (33) mutually, riser (32) set up in the bottom of measuring table (1), and riser (32) are located the side of positioning gear (33), install on the lateral wall of riser (32) positioning motor (31), and positioning motor's (31) output runs through riser (32) and positioning gear (33) fixed connection.

3. The optical image measuring instrument of gantry type with positioning function according to claim 1, wherein: the moving device (4) comprises a moving motor (41), an L-shaped frame (42), a synchronous belt (43), a translation assembly (44), a lifting assembly (45), two X-axis screws (46), two synchronous wheels (47) and two guide seats (48), wherein the top of the measuring table (1) is provided with two guide cavities (11) which are arranged at intervals, the two X-axis screws (46) are respectively positioned in the two guide cavities (11), one end of each X-axis screw (46) penetrates through the measuring table (1) and extends outwards, the other end of each X-axis screw (46) is rotatably connected with the inner wall of the measuring table (1), the L-shaped frame (42) is arranged on the outer wall of the measuring table (1), the moving motor (41) is arranged on the side wall of the L-shaped frame (42), and the output end of the moving motor (41) penetrates through the L-shaped frame (42) and is fixedly connected with one X-axis screw (46), two synchronizing wheel (47) overlap respectively and establish on two X axle screw rods (46), hold-in range (43) cover is established on two synchronizing wheel (47), two guide holder (48) are the symmetry and slide and set up on measuring table (1), and the bottom of two guide holders (48) all runs through and measure table (1) and extend into two direction chamber (11) respectively, two the bottom of guide holder (48) is established respectively on two X axle screw rods (46), translation subassembly (44) are located two guide holders (48), and the both ends of translation subassembly (44) respectively with two guide holder (48) fixed connection, lifting unit (45) slide and set up on translation subassembly (44).

4. The optical image measuring instrument of gantry type with positioning function according to claim 3, wherein: the translation assembly (44) comprises a translation plate (441), a T-shaped block (442), a translation motor (443) and a translation gear (444), the translation plate (441) is located between the two guide seats (48), two ends of the translation plate (441) are respectively and fixedly connected with the two guide seats (48), the T-shaped block (442) is slidably arranged at the top of the translation plate (441), the translation motor (443) is arranged at the top of the T-shaped block (442), the translation gear (444) is arranged at the output end of the translation motor (443), a translation rack (445) is mounted at the top of the translation plate (441), the translation gear (444) is meshed with the translation rack (445), and the lifting assembly (45) is mounted on the side wall of the T-shaped block (442).

5. The optical image measuring instrument of gantry type with positioning function according to claim 4, wherein: the lifting assembly (45) comprises a screw rod sliding table (451) and an auxiliary plate (452), the screw rod sliding table (451) is located on the side of the translation plate (441), the screw rod sliding table (451) is fixedly connected with the side wall of the T-shaped block (442), the auxiliary plate (452) is horizontally arranged at the moving end of the screw rod sliding table (451), and the optical image measuring instrument (2) is arranged at the bottom of the auxiliary plate (452).

6. The optical image measuring instrument of gantry type with positioning function according to claim 2, wherein: and a rubber cushion plate (39) is arranged on the side wall of each positioning plate (36).

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