CN213147792U

CN213147792U - Flat plate flatness detection device

Info

Publication number: CN213147792U
Application number: CN202022648159.8U
Authority: CN
Inventors: 刘希军
Original assignee: Civil Aviation Flight University of China
Current assignee: Civil Aviation Flight University of China
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-05-07
Anticipated expiration: 2030-11-16

Abstract

The utility model discloses a dull and stereotyped plane degree detection device, when meetting dull and stereotyped plane and appearing unevenness's condition in the testing process, the butt roller pair the both sides of check out test set carry out shock attenuation protection to with vibrations transmission extremely support the hydraulic stem, drive support the hydraulic stem orientation support the inside of pneumatic cylinder is flexible, and then drive check out test set reciprocates, thereby right check out test set's vibrations slow down, have avoided check out test set and dull and stereotyped bump change slip direction.

Description

Flat plate flatness detection device

Technical Field

The utility model relates to a dull and stereotyped check out test set field especially relates to a dull and stereotyped plane degree detection device.

Background

At present, equipment for detecting the flatness of a flat plate drives detection equipment to slide on the flat plate through a trolley sliding on a linear guide rail, so that the flatness of the planes on the upper side and the lower side of the flat plate is detected, and the detection equipment is used for screening defective goods in flat plate processing.

When the existing sliding detection equipment is in contact with a flat plate with an undulate surface, the detection equipment collides with the undulate flat plate, the sliding direction of the detection equipment is changed, and therefore the detection precision of the detection equipment is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dull and stereotyped plane degree detection device, when aiming at solving gliding check out test set among the prior art and surface have the dull and stereotyped plane contact of undulation, check out test set bumps with the dull and stereotyped plane of undulation, changes check out test set's slip direction to influence check out test set's the technical problem of detection precision.

In order to achieve the above purpose, the utility model discloses a flat plate flatness detection device, which comprises an installation guide rail, a detection device and a sliding support component; the detection equipment is connected with the installation guide rail in a sliding mode and is positioned on one side of the installation guide rail; the sliding support assembly comprises a guide sliding block, a guide driving component, a support hydraulic cylinder, a support hydraulic rod and a cushioning component, the guide sliding block is connected with the installation guide rail in a sliding mode and is positioned on one side, close to the detection device, of the installation guide rail, the guide driving component is fixedly connected with the installation guide rail and is rotatably connected with the guide sliding block, the support hydraulic cylinder is fixedly connected with the guide sliding block and is positioned on one side, close to the detection device, of the guide sliding block, one end of the support hydraulic rod is fixedly connected with the support hydraulic cylinder, the other end of the support hydraulic rod is fixedly connected with the detection device and is positioned between the detection device and the support hydraulic cylinder; the bradyseism component is including supporting horizontal pole, butt running roller and bradyseism wheel cover, support the horizontal pole with support hydraulic stem fixed connection, and be located support the hydraulic stem and be close to check out test set's one end, the butt running roller with support the horizontal pole and rotate to be connected, and be located support the horizontal pole and keep away from support the one end of hydraulic stem, the bradyseism wheel cover with butt running roller fixed connection, and be located the butt running roller is kept away from support one side of horizontal pole.

The installation guide rail is provided with a sliding groove, and the sliding groove is located on one side, close to the guide sliding block, of the installation guide rail and matched with the guide sliding block.

The guide driving component comprises a driving screw and a screw driving motor, the driving screw is rotatably connected with the mounting guide rail, is rotatably connected with the guide sliding block and is positioned in the sliding groove; the screw driving motor is fixedly connected with the mounting guide rail and is positioned on one side of the mounting guide rail close to the driving screw, and an output shaft of the screw driving motor is fixedly connected with the driving screw.

The guide driving component further comprises a guide bearing, the guide bearing is fixedly connected with the installation guide rail, is rotatably connected with the driving screw rod and is positioned on one side, close to the driving screw rod, of the installation guide rail.

The cushioning component further comprises a buffer spring, one side of the buffer spring is abutted with the supporting cross rod, the other side of the buffer spring is abutted with the supporting hydraulic cylinder, and the buffer spring is located between the supporting hydraulic cylinder and the supporting cross rod.

The shock absorption component further comprises a rotary bearing, wherein the rotary bearing is connected with the support cross rod in a rotating mode, is fixedly connected with the abutting roller wheel and is located at one end, close to the abutting roller wheel, of the support cross rod.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a cushioning member of the present invention.

Fig. 2 is a schematic structural view of the sliding support assembly of the present invention.

Fig. 3 is a schematic structural view of the guide driving member of the present invention.

In the figure: 1-installing a guide rail, 2-detecting equipment, 3-sliding supporting components, 11-sliding chutes, 31-guiding sliding blocks, 32-guiding driving components, 33-supporting hydraulic cylinders, 34-supporting hydraulic rods, 35-cushioning components, 100-flat plate flatness detecting devices, 321-driving screws, 322-screw driving motors, 323-guiding bearings, 351-supporting cross rods, 352-abutting rollers, 353-cushioning roller sleeves, 354-buffer springs and 355-rotating bearings.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, the present invention provides a flat plate flatness detecting apparatus 100, which includes an installation guide rail 1, a detecting device 2 and a sliding support assembly 3; the detection device 2 is connected with the installation guide rail 1 in a sliding mode and is positioned on one side of the installation guide rail 1; the sliding support component 3 comprises a guide slider 31, a guide driving member 32, a support hydraulic cylinder 33, a support hydraulic rod 34 and a shock absorption member 35, wherein the guide slider 31 is slidably connected with the installation guide rail 1 and is positioned on one side of the installation guide rail 1 close to the detection device 2, the guide driving member 32 is fixedly connected with the installation guide rail 1 and is rotatably connected with the guide slider 31, the support hydraulic cylinder 33 is fixedly connected with the guide slider 31 and is positioned on one side of the guide slider 31 close to the detection device 2, one end of the support hydraulic rod 34 is fixedly connected with the support hydraulic cylinder 33, and the other end of the support hydraulic rod is fixedly connected with the detection device 2 and is positioned between the detection device 2 and the support hydraulic cylinder 33; the cushioning member 35 includes a support cross rod 351, an abutting roller 352 and a cushioning roller sleeve 353, the support cross rod 351 is fixedly connected with the support hydraulic rod 34 and is located at one end of the support hydraulic rod 34 close to the detection device 2, the abutting roller 352 is rotatably connected with the support cross rod 351 and is located at one end of the support cross rod 351 far away from the support hydraulic rod 34, and the cushioning roller sleeve 353 is fixedly connected with the abutting roller 352 and is located at one side of the abutting roller 352 far away from the support cross rod 351.

In the embodiment, the installation guide rail 1 is installed on a production line device of a processing workshop through a bracket, a flat plate is transported to a processing station through a production line transport device, the installation guide rail 1 is positioned above the flat plate, and the detection device 2 is driven to slide through a control device and the guide driving component 32; the guide sliding block 31 is slidably mounted on the mounting guide rail 1 and faces towards a lower flat plate, the support hydraulic cylinder 33 is fixed at the bottom of the guide sliding block 31 in a threaded manner, the support hydraulic rod 34 is mounted at the bottom of the support hydraulic cylinder 33 in a threaded manner, the support hydraulic rod 34 is driven to extend and retract by the support hydraulic cylinder 33, the detection device 2 is mounted at the free end of the bottom of the support hydraulic rod 34 in a threaded manner, and the detection device 2 slides along the mounting guide rail 1 under the driving of the guide sliding block 31; the supporting cross rod 351 is installed at one end of the supporting hydraulic rod 34 close to the detection device 2 in a threaded manner, the supporting hydraulic rod 34 penetrates through the central position of the supporting cross rod 351, so that two ends of the supporting cross rod 351 are respectively located at two sides of the detection device 2, the abutting roller wheel 352 is respectively installed at two ends of the supporting cross rod 351 in a rotating manner, the bottom of the outer side of the abutting roller wheel 352 is parallel to the bottom plane of the detection device 2, the cushioning wheel sleeve 353 is adhered to the outer side surface of the abutting roller wheel 352, the cushioning wheel sleeve 353 is made of rubber and has a good damping effect, the abutting roller wheel 352 is in contact with the plane of the flat plate through the cushioning wheel sleeve 353, and therefore when the plane of the flat plate is uneven in the detection process, the abutting roller wheel 352 performs damping protection on two sides of the detection device 2, and will shake and transmit to support hydraulic stem 34, drive support hydraulic stem 34 orientation support the inside of pneumatic cylinder 33 is flexible, and then drive check out test set 2 reciprocates, thereby it is right check out test set 2's vibrations are slowed down, have avoided check out test set 2 and dull and stereotyped collision change sliding direction.

Further, referring to fig. 3, the mounting rail 1 has a sliding groove 11, and the sliding groove 11 is located on a side of the mounting rail 1 close to the guiding slider 31 and is matched with the guiding slider 31.

In the present embodiment, the bottom of the mounting rail 1 has the slide groove 11, the section of the slide groove 11 is "convex", and the section of the guide slider 31 is also "convex", so that the guide slider 31 is slidably fitted to the slide groove 11, and the detection device 2 is more stably slid in the longitudinal direction of the mounting rail 1 because the detection device 2 is mounted on the bottom of the guide slider 31.

Further, referring to fig. 3, the guiding driving member 32 includes a driving screw 321 and a screw driving motor 322, the driving screw 321 is rotatably connected to the mounting rail 1, rotatably connected to the guiding slider 31, and located in the sliding slot 11; the screw driving motor 322 is fixedly connected with the mounting guide rail 1 and is located on one side of the mounting guide rail 1 close to the driving screw 321, and an output shaft of the screw driving motor 322 is fixedly connected with the driving screw 321.

In this embodiment, the driving screw 321 is rotatably mounted on the slide rail of the mounting rail 1 through a bearing and axially rotates, a threaded hole is formed in the center of the guide slider 31, and the driving screw 321 is engaged with the threaded hole of the guide slider 31; the screw driving motor 322 is fixed on the side surface of the installation guide rail 1 in a threaded manner, and is fixed with the driving screw 321 in a threaded manner through an output shaft, and the driving screw 321 is driven to rotate by the screw driving motor 322, so that the guide sliding block 31 is driven to slide in the sliding chute 11.

Further, referring to fig. 3, the guiding driving member 32 further includes a guiding bearing 323, and the guiding bearing 323 is fixedly connected to the mounting rail 1, rotatably connected to the driving screw 321, and located on a side of the mounting rail 1 close to the driving screw 321.

In this embodiment, the outer ring of the guide bearing 323 is fixed to the inner surface of the mounting rail 1, and the driving screw 321 is screw-mounted on the inner ring of the guide bearing 323, so that the rotation of the driving screw 321 is supported, and the rotation of the driving screw 321 is stabilized.

Further, referring to fig. 2, the shock absorbing member 35 further includes a buffer spring 354, one side of the buffer spring 354 abuts against the support cross bar 351, and the other side abuts against the support hydraulic cylinder 33 and is located between the support hydraulic cylinder 33 and the support cross bar 351.

In this embodiment, the buffer spring 354 is sleeved outside the support hydraulic rod 34, and upper and lower sides thereof are respectively abutted against the support cross rod 351 and the support hydraulic cylinder 33, so that the detection device 2 is damped during the extension and contraction of the support hydraulic rod 34.

Further, referring to fig. 1 and 2, the shock absorbing member 35 further includes a rotating bearing 355, wherein the rotating bearing 355 is rotatably connected to the supporting cross bar 351, fixedly connected to the abutting roller 352, and located at one end of the supporting cross bar 351 close to the abutting roller 352.

In this embodiment, the outer ring of the rotary bearing 355 is screwed to the center of the abutment roller 352, and the inner ring of the rotary bearing 355 is screwed to the support rail 351, and the abutment roller 352 and the support rail 351 are rotated by the rotation of the balls between the inner ring and the outer ring.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. A flat plate flatness detection device is characterized by comprising an installation guide rail, detection equipment and a sliding support assembly;

the detection equipment is connected with the installation guide rail in a sliding mode and is positioned on one side of the installation guide rail;

the sliding support assembly comprises a guide sliding block, a guide driving component, a support hydraulic cylinder, a support hydraulic rod and a cushioning component, the guide sliding block is connected with the installation guide rail in a sliding mode and is positioned on one side, close to the detection device, of the installation guide rail, the guide driving component is fixedly connected with the installation guide rail and is rotatably connected with the guide sliding block, the support hydraulic cylinder is fixedly connected with the guide sliding block and is positioned on one side, close to the detection device, of the guide sliding block, one end of the support hydraulic rod is fixedly connected with the support hydraulic cylinder, the other end of the support hydraulic rod is fixedly connected with the detection device and is positioned between the detection device and the support hydraulic cylinder;

the bradyseism component is including supporting horizontal pole, butt running roller and bradyseism wheel cover, support the horizontal pole with support hydraulic stem fixed connection, and be located support the hydraulic stem and be close to check out test set's one end, the butt running roller with support the horizontal pole and rotate to be connected, and be located support the horizontal pole and keep away from support the one end of hydraulic stem, the bradyseism wheel cover with butt running roller fixed connection, and be located the butt running roller is kept away from support one side of horizontal pole.

2. The plate flatness detecting apparatus of claim 1,

the installation guide rail is provided with a sliding groove, and the sliding groove is positioned on one side of the installation guide rail, which is close to the guide sliding block, and is matched with the guide sliding block.

3. The plate flatness detecting apparatus of claim 2,

4. The plate flatness detecting apparatus of claim 3,

5. The plate flatness detecting apparatus of claim 1,

6. The plate flatness detecting apparatus of claim 1,

the cushioning component further comprises a rotary bearing, wherein the rotary bearing is rotatably connected with the supporting cross rod, is fixedly connected with the abutting roller wheel and is positioned at one end, close to the abutting roller wheel, of the supporting cross rod.