CN113390609A

CN113390609A - Vehicle-mounted screen compatible jig carrying platform

Info

Publication number: CN113390609A
Application number: CN202110623817.4A
Authority: CN
Inventors: 杨深锋
Original assignee: Shenzhen Shangju Vision Technology Co ltd; Shenzhen Sunco Intelligent Equipment Co ltd; Hefei Shangju Intelligent Equipment Co ltd
Current assignee: Shenzhen Shangju Vision Technology Co ltd; Shenzhen Sunco Intelligent Equipment Co ltd; Hefei Shangju Intelligent Equipment Co ltd
Priority date: 2021-06-04
Filing date: 2021-06-04
Publication date: 2021-09-14
Anticipated expiration: 2041-06-04
Also published as: CN113390609B

Abstract

The invention provides a vehicle-mounted screen compatible jig carrying platform, which comprises: a base plate; the two adjusting support plates are arranged in a crossed manner, the two adjusting support plates take a central point as a crossed pivot, and sliding holes are respectively arranged on the two adjusting support plates along the diagonal direction; the top of the proportion adjusting mechanism is respectively connected with the lower parts of the two adjusting support plates; the size adjusting mechanism is used for driving the jigs to symmetrically move under the condition that the plurality of jigs keep the length-width ratio of the bearing space unchanged so as to adjust the length and the width of the bearing space. The length-width ratio of the bearing space is adjusted through the ratio adjusting mechanism, and the size adjusting mechanism drives the jigs to symmetrically move so as to adjust the length and the width of the bearing space in the same ratio.

Description

Vehicle-mounted screen compatible jig carrying platform

Technical Field

The invention relates to the technical field of jigs, in particular to a vehicle-mounted screen compatible jig carrying platform.

Background

The vehicle-mounted screen needs to be detected in various indexes before leaving a factory, and the precondition for detecting the indexes is that the vehicle-mounted screen needs to be positioned and fixed in advance. The on-vehicle screen of equidimension needs different size specification equipment to fix, and the commonality of equipment is poor, and the dismouting is inconvenient, and equipment cost is higher. The current can the compatibility place the on-vehicle screen of different sizes more than two kinds and design into stair structure with the standing groove usually, when placing the great on-vehicle screen of size, the centre can form the suspension region, causes the crooked damage of on-vehicle screen easily when the tray falls or receives external force.

Disclosure of Invention

In order to solve the defects, the invention provides the vehicle-mounted screen compatible jig carrying platform which is good in universality, compatible with vehicle-mounted screens of various sizes, convenient to disassemble and assemble and capable of reducing equipment cost.

The invention provides a vehicle-mounted screen compatible jig carrying platform, which comprises: a base plate; the two adjusting support plates are arranged above the bottom plate in a crossed mode, the two adjusting support plates take a central point as a crossed fulcrum, and sliding holes are formed in the two adjusting support plates along the diagonal direction respectively; the top of the proportion adjusting mechanism is respectively connected with the lower parts of the two adjusting support plates, and the proportion adjusting mechanism is used for adjusting the gap proportion between the two adjusting support plates; the size adjusting mechanism is used for driving the jigs to symmetrically move under the condition of keeping the length-width ratio of the bearing space unchanged so as to adjust the length and the width of the bearing space in the same ratio.

In an embodiment of the present invention, the adjusting support plate is provided with a scale at a position close to the sliding hole.

In an embodiment of the present invention, the proportional adjustment mechanism includes a slide rail plate bottom plate, an angle slide rail, an angle slide plate, an angle adjustment seat, and a proportional adjustment screw, the angle slide rail is disposed on one side above the slide rail plate bottom plate, the angle adjustment seat is disposed on the other side above the slide rail plate bottom plate, the angle slide plate is slidably connected to the angle slide rail through a slider, the proportional adjustment screw passes through the angle adjustment seat and is connected to one end of the angle slide plate, and the upper side of the angle slide plate is respectively connected to the bottoms of the two adjustment support plates through two cam bearings.

In an embodiment of the present invention, the angle sliding plate includes a main plate, and two sliding plates disposed on two sides of the main plate, wherein the two sliding plates are respectively provided with mounting grooves, the two mounting grooves are symmetrically disposed along the main plate, cam bearings are movably mounted in the two mounting grooves, and the two mounting grooves are respectively connected to bottoms of the two adjusting support plates through the cam bearings.

In an embodiment of the present invention, the center line of the two rotation mounting grooves forms an included angle of 45-120 °.

In an embodiment of the present invention, a center line of the two rotation mounting grooves forms an included angle of 60 °.

In one embodiment of the present invention, the size adjusting mechanism includes two guide rail connecting plates arranged in parallel, two X-axis linear guide rails arranged in parallel with the guide rail connecting plates, two Y-axis linear guide rails arranged perpendicular to the X-axis linear guide rails, a ball screw, and two bearing seats, wherein an upper side of each guide rail connecting plate is connected to a bottom of the corresponding X-axis linear guide rail, two ends of a bottom of each guide rail connecting plate are respectively connected to one end of an upper side of the corresponding Y-axis linear guide rail, the bearing seats are arranged above the bottom plate, one end of the ball screw sequentially passes through one bearing seat, the two guide rail connecting plates are connected to another bearing seat, and the other end of the ball screw is connected to the handle; and two ends of the X-axis linear guide rail are respectively provided with a movable bottom block, and the movable bottom blocks penetrate through the sliding holes to be connected with the jig.

In an embodiment of the invention, the vehicle-mounted screen compatible jig carrying platform further comprises a jacking mechanism, the jacking mechanism comprises a jacking copper column, a connecting rod swivel mount, a rocker, a pressing block and a pressing block mounting plate, the jacking copper column is vertically mounted at the intersection of the adjusting support plate, the connecting rod swivel mount and the pressing block mounting plate are respectively arranged on the bottom plate, the middle part of the rocker is rotatably connected with the connecting rod swivel mount, the bottom of the pressing block is rotatably connected with the pressing block mounting seat, one end of the rocker is arranged below the jacking copper column, and the other end of the rocker is slidably connected with one side of the pressing block so as to realize the lifting of the jacking copper column along with the swinging of the pressing block.

In an embodiment of the invention, the vehicle-mounted screen compatible jig carrying platform further comprises a pushing mechanism, the pushing mechanism is connected with the other side of the pressing block in a sliding manner, the pushing mechanism comprises a locking block, a pushing shaft and a pushing block, one end of the pushing shaft is connected with the locking block, the other end of the pushing shaft is connected with the pushing block, the bottom of the pushing block is inclined, and the bottom of the pushing block is connected with the pressing block in a sliding manner so that the pushing block can drive the pressing block to press one end of the warped plate downwards to enable the other end of the warped plate to move upwards.

In one embodiment of the invention, a cross-shaped jacking block is installed above the jacking copper column, and a jacking column is installed on the jacking block.

In summary, the present invention provides a vehicle-mounted screen compatible tool carrying platform, and the beneficial effects of the present invention are:

the length-width ratio of the bearing space is adjusted through the ratio adjusting mechanism, the two adjusting support plates are opened and closed in a symmetrical shear mode, and the angle of the adjusting support plates is adjusted through adjusting the ratio screws. Further, the size adjusting mechanism drives the jigs to symmetrically move under the condition of keeping the length-width ratio of the bearing space unchanged, so that the length and the width of the bearing space are adjusted in the same ratio. Through adjusting the product of the different sizes of handle adaptation homogeneous proportion, the tool symmetry removal simultaneously of rotatory handle four corners has the locate function placed in the middle. The lifting mechanism is arranged, a suspended area in the middle of the carrying platform is avoided, and the bending damage or deformation of the vehicle-mounted screen is well avoided.

Drawings

Fig. 1 is a schematic perspective view of a vehicle-mounted screen compatible jig according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of the vehicle-mounted screen compatible jig of fig. 1 without two adjusting support plates.

Fig. 3 is a front view of a vehicle-mounted screen compatible jig according to an embodiment of the invention.

Fig. 4 is a cross-sectional view taken along a-a in fig. 3.

To illustrate the element symbols:

1. a base plate; 21. a first adjusting support plate; 22. a second adjusting support plate; 301. a slide plate bottom plate; 302. an angle slide rail; 303. an angle slide plate; 304. an angle adjusting seat; 305. a proportional adjustment screw; 401. a guide rail connecting plate; 402. an X-axis linear guide rail; 403. a Y-axis linear guide rail; 404. a first bearing housing; 405. a second bearing housing; 406. moving the bottom block; 407. a coupling; 501. jacking the copper column; 502. a connecting rod rotating seat; 503. a seesaw; 504. briquetting; 505. a push block; 506. pushing the shaft; 507. a locking block; 508. jacking blocks; 509. and (4) jacking the column.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1, a carrier for a vehicle-mounted screen compatible tool is used for carrying a vehicle-mounted screen during an AOI detection process. On-vehicle compatible tool microscope carrier of screen includes: the bottom plate 1, first regulation backup pad 21, second regulation backup pad 22, proportion adjustment mechanism, size adjustment mechanism and climbing mechanism.

Wherein the bottom plate 1 plays a supporting role.

The first adjusting support plate 21 and the second adjusting support plate 22 are arranged above the bottom plate 1, the first adjusting support plate 21 and the second adjusting support plate 22 are arranged in a crossed manner, the first adjusting support plate 21 and the second adjusting support plate 22 use a central point as a crossed pivot, and sliding holes are respectively formed in the first adjusting support plate 21 and the second adjusting support plate 22 along the diagonal direction; furthermore, scales are uniformly arranged on the positions, close to the sliding hole, of the first adjusting support plate 21 and the second adjusting support plate 22, so that the size of the bearing space can be adjusted conveniently.

Next, the ratio adjusting mechanism is used to adjust the gap ratio between the first adjusting support plate 21 and the second adjusting support plate 22. The top of the proportional control mechanism is connected to the lower parts of the first and second

control support plates

21 and 22, respectively.

In this embodiment, as shown in fig. 2, the proportional adjustment mechanism includes a slide plate bottom plate 301, an angle slide 302, an angle slide 303, an angle adjustment seat 304, a proportional adjustment screw 305 and cam bearings, the angle slide 302 is disposed on one side above the slide plate bottom plate 301, the angle adjustment seat 304 is disposed on the other side above the slide plate bottom plate 301, the angle slide 303 is slidably connected to the angle slide 302 through a slider, the proportional adjustment screw 305 passes through the angle adjustment seat 304 and is connected to one end of the angle slide 303, and the angle slide 303 is respectively connected to bottoms of two adjustment support plates through two cam bearings. The length-width ratio of the bearing space is adjusted through the ratio adjusting mechanism, the first adjusting support plate 21 and the second adjusting support plate 22 are opened and closed in a symmetrical shear mode, and the angle of the adjusting support plates is adjusted through adjusting ratio screws.

Further, the angle sliding plate 303 includes a main plate and two sliding plates disposed on two sides of the main plate, wherein the two sliding plates are respectively provided with a mounting groove, the two mounting grooves are symmetrically disposed along the main plate, cam bearings are movably mounted in the two mounting grooves, and the two mounting grooves are respectively connected with the bottoms of the two adjusting support plates through the cam bearings.

Preferably, the center line of the two installing and rotating grooves forms an included angle of 45-120 degrees. Further preferably, the center lines of the two installation and rotation grooves form an included angle of 60 degrees.

And thirdly, four corners of the size adjusting mechanism are respectively provided with a movable bottom block 406, each movable bottom block 406 respectively penetrates through the sliding hole to be connected with the corresponding jig, a vehicle-mounted screen bearing space is formed among the plurality of jigs, and the size adjusting mechanism is used for driving the jigs to symmetrically move under the condition that the length-width ratio of the bearing space is not changed by the plurality of jigs so as to adjust the length and the width of the bearing space.

In this embodiment, as shown in fig. 2, the size adjustment mechanism includes two guide rail connection plates 401 arranged in parallel, two X-axis linear guide rails 402 arranged in parallel with the guide rail connection plates 401, two Y-axis linear guide rails 403 arranged perpendicular to the X-axis linear guide rails 402, a ball screw, a first bearing seat 404, and a second bearing seat 405, wherein the upper side of each guide rail connection plate 401 is connected to the bottom of the corresponding X-axis linear guide rail 402, two ends of the bottom of each guide rail connection plate 401 are respectively connected to one end of the upper side of the corresponding Y-axis linear guide rail 403, the first bearing seat 404 and the second bearing seat 405 are arranged on the upper side of the base plate 1, one end of the ball screw sequentially passes through the first bearing seat 404, the two guide rail connection plates 401 are connected to the second bearing seat 405, and the other end of the ball screw is connected to the handle; two ends of the X-axis linear guide rail 402 are respectively provided with a movable bottom block 406, and the movable bottom block 406 penetrates through the sliding hole to be connected with the jig. Further, two ball screws are provided, and the two ball screws are connected by a coupling 407.

The invention drives each jig to symmetrically move under the condition of keeping the length-width ratio of the bearing space unchanged through the size adjusting mechanism so as to adjust the length and the width of the bearing space in the same ratio. Through adjusting the product of the different sizes of handle adaptation homogeneous proportion, the tool symmetry removal simultaneously of rotatory handle four corners has the locate function placed in the middle.

And finally, the jacking mechanism is used for avoiding a suspended area in the middle of the carrying platform and plays a role in intermediate support. As shown in fig. 3 and 4, the jacking mechanism includes a jacking copper column 501, a connecting rod swivel mount 502, a rocker 503, a pressing block 504 and a pressing block mounting plate, the jacking copper column 501 is vertically mounted at the intersection of two adjusting support plates, the connecting rod swivel mount 502 and the pressing block mounting plate are respectively arranged on the bottom plate 1, the middle part of the rocker 503 is rotatably connected with the connecting rod swivel mount 502, the bottom of the pressing block 504 is rotatably connected with the pressing block mounting seat, one end of the rocker 503 is arranged below the jacking copper column 501, and the other end of the rocker 503 is slidably connected with one side of the pressing block 504 so as to be suitable for realizing the lifting of the jacking copper column 501 along with the swinging of the pressing block 504.

Further, the top of the pressing block 504 is provided with a bearing, which is beneficial to sliding and pressing the rocker. The two ends of the rocker 503 are respectively provided with a bearing, which is beneficial to lifting the copper column 501 in the vertical direction.

Further, the compatible tool microscope carrier of on-vehicle screen still includes pushing mechanism, pushing mechanism and briquetting 504 opposite side sliding connection, pushing mechanism includes locking piece 507, promotes axle 506 and ejector pad 505, and the one end that promotes axle 506 links to each other with locking piece 507, and the other end links to each other with ejector pad 505, and the bottom of ejector pad 505 is the slope form, and the bottom of ejector pad 505 and briquetting 504 sliding connection make ejector pad 505 drive briquetting 504 push down the one end that wane 503 make the other end upward movement of wane 503.

In this embodiment, a cross-shaped jacking block 508 is installed above the jacking copper column 501, and an adjustable jacking column 509 is installed on the jacking block 508. The invention avoids the suspended area in the middle of the carrying platform through the jacking column 509, and well avoids the bending damage or deformation of the vehicle-mounted screen.

The working process of the embodiment: the proportion adjusting screw 305 is adjusted, the proportion adjusting screw 305 drives the angle sliding plate 303 to slide on the angle sliding rail 302, the two adjusting supporting plates are driven to rotate around the intersection point through the cam bearing, the two adjusting supporting plates are opened and closed in a symmetrical shear mode, and the length-width proportion of the bearing space is adjusted; then, the ball screw is driven to rotate through the handle, the ball screw drives the guide rail connecting plate 401 to move, the guide rail connecting plate 401 drives the X-axis linear guide rail 402 and the Y-axis linear guide rail 403 to move, the movable bottom blocks 406 at two ends of the X-axis linear guide rail 402 penetrate through the sliding holes to be connected with the jigs, the movable bottom blocks 406 are only limited to move within the range of the sliding holes, and the jigs are driven to move symmetrically so as to adjust the length and the width of the bearing space in the same proportion; and finally, the locking block 507 is pushed to realize the lifting of the jacking column so as to realize the function of middle support.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a compatible tool microscope carrier of on-vehicle screen which characterized in that, it includes:

a base plate;

the two adjusting support plates are arranged above the bottom plate in a crossed mode, the two adjusting support plates take a central point as a crossed fulcrum, and sliding holes are formed in the two adjusting support plates along the diagonal direction respectively;

the top of the proportion adjusting mechanism is respectively connected with the lower parts of the two adjusting support plates, and the proportion adjusting mechanism is used for adjusting the gap proportion between the two adjusting support plates;

the size adjusting mechanism is used for driving the jigs to symmetrically move under the condition of keeping the length-width ratio of the bearing space unchanged so as to adjust the length and the width of the bearing space in the same ratio.

2. The carrier for the vehicle-mounted screen compatible jig as claimed in claim 1, wherein the adjusting support plate is provided with a scale at a position close to the sliding hole.

3. The carrier for the vehicle-mounted screen compatible jig according to claim 1, wherein the proportional adjustment mechanism comprises a slide rail plate bottom plate, an angle slide rail, an angle slide plate, an angle adjustment seat and a proportional adjustment screw, the angle slide rail is arranged on one side above the slide rail plate bottom plate, the angle adjustment seat is arranged on the other side above the slide rail plate bottom plate, the angle slide plate is slidably connected with the angle slide rail through a slider, the proportional adjustment screw passes through the angle adjustment seat and is connected with one end of the angle slide plate, and the upper side of the angle slide plate is respectively connected with the bottoms of the two adjustment support plates through two cam bearings.

4. The carrier for the vehicle-mounted screen-compatible jig according to claim 3, wherein the angle slide plate comprises a main plate and two slide plates disposed on both sides of the main plate, wherein the two slide plates are respectively provided with mounting grooves, the two mounting grooves are symmetrically disposed along the main plate, cam bearings are movably mounted in the two mounting grooves, and the two mounting grooves are respectively connected with the bottoms of the two adjusting support plates through the cam bearings.

5. The carrier for the vehicle-mounted screen compatible jig of claim 4, wherein the center line of the two mounting and rotating grooves forms an included angle of 45-120 degrees.

6. The carrier for the vehicle-mounted screen compatible jig of claim 4, wherein the center line of the two mounting and rotating grooves forms an included angle of 60 degrees.

7. The carrier for the vehicle-mounted screen compatible jig according to claim 1, wherein the size adjusting mechanism comprises two guide rail connecting plates arranged in parallel, two X-axis linear guide rails arranged in parallel with the guide rail connecting plates, two Y-axis linear guide rails arranged perpendicular to the X-axis linear guide rails, a ball screw and two bearing seats, wherein the upper side of each guide rail connecting plate is connected with the bottom of the corresponding X-axis linear guide rail, two ends of the bottom of each guide rail connecting plate are respectively connected with one end of the upper side of the corresponding Y-axis linear guide rail, the bearing seats are arranged above the bottom plate, and the ball screw sequentially passes through one bearing seat and the two guide rail connecting plates and is connected with the other bearing seat; and two ends of the X-axis linear guide rail are respectively provided with a movable bottom block, and the movable bottom blocks penetrate through the sliding holes to be connected with the jig.

8. The vehicle-mounted screen compatible tool carrying platform of claim 1, further comprising a jacking mechanism, wherein the jacking mechanism comprises a jacking copper column, a connecting rod swivel mount, a rocker, a pressing block and a pressing block mounting plate, the jacking copper column is vertically mounted at the intersection of the adjusting support plate, the connecting rod swivel mount and the pressing block mounting plate are respectively arranged on the bottom plate, the middle of the rocker is rotatably connected with the connecting rod swivel mount, the bottom of the pressing block is rotatably connected with the pressing block mounting seat, one end of the rocker is arranged below the jacking copper column, and the other end of the rocker is slidably connected with one side of the pressing block to realize the lifting of the jacking copper column along with the swinging of the pressing block.

9. The vehicle-mounted screen compatible tool carrying platform as claimed in claim 8, further comprising a pushing mechanism, wherein the pushing mechanism is slidably connected to the other side of the pressing block, the pushing mechanism comprises a locking block, a pushing shaft and a pushing block, one end of the pushing shaft is connected to the locking block, the other end of the pushing shaft is connected to the pushing block, the bottom of the pushing block is inclined, and the bottom of the pushing block is slidably connected to the pressing block so that the pushing block can drive one end of the pressing block pressing the tilting plate to enable the other end of the tilting plate to move upwards.

10. The carrier for the vehicle-mounted screen compatible jig as claimed in claim 8, wherein a cross-shaped jacking block is installed above the jacking copper column, and a jacking column is installed on the jacking block.