CN214265488U

CN214265488U - Accurate UVW vision counterpoint platform

Info

Publication number: CN214265488U
Application number: CN202022666457.XU
Authority: CN
Inventors: 刘祖锋
Original assignee: Shenzhen Qianhua Technology Co ltd
Current assignee: Shenzhen Qianhua Technology Co ltd
Priority date: 2020-11-18
Filing date: 2020-11-18
Publication date: 2021-09-24
Anticipated expiration: 2030-11-18

Abstract

The utility model relates to the technical field of UVW vision alignment platform, in particular to a precise UVW vision alignment platform, which comprises a base, wherein the four corners of the end surface of the base are sequentially provided with a main X-axis driven module, a main Y-axis driven module, an auxiliary X-axis driven module and an auxiliary Y-axis driven module, the ends of the main X-axis driven module, the main Y-axis driven module, the auxiliary X-axis driven module and the auxiliary Y-axis driven module are respectively correspondingly connected with the four corners at the bottom of a workbench, the main X-axis driven module comprises an X-axis motor, an X-axis supporting seat, an X-axis ball screw, an X-axis guide rail seat, an X-axis sliding seat, a Y-axis sliding block and an X-axis crossed ball bearing, the utility model realizes the axial movement of the UVW vision alignment platform at X, Y by arranging the driven modules which are crossed with each other between the base and the workbench, and further can carry out displacement adjustment in different directions according to the working requirements, daily work demand can be satisfied, the performance of UVW vision counterpoint platform has been improved simultaneously.

Description

Accurate UVW vision counterpoint platform

Technical Field

The utility model relates to a UVW vision counterpoint platform technical field specifically is an accurate UVW vision counterpoint platform.

Background

The current UVW vision is counterpointed the platform and can not carry out the displacement according to the work demand in equidirectional adjustment to can not satisfy daily work demand, reduced simultaneously and reached the performance of UVW vision counterpoint platform.

To sum up, the utility model discloses a design an accurate UVW vision and counterpoint the platform and solve the problem that exists.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an accurate UVW vision counterpoint platform to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a precise UVW visual alignment platform comprises a base, wherein a main X-axis driven module, a main Y-axis driven module, an auxiliary X-axis driven module and an auxiliary Y-axis driven module are sequentially arranged at four corners of the end face of the base, the ends of the main X-axis driven module, the main Y-axis driven module, the auxiliary X-axis driven module and the auxiliary Y-axis driven module are respectively and correspondingly connected to the four corners of the bottom of a workbench, the main X-axis driven module comprises an X-axis motor, an X-axis supporting seat, an X-axis ball screw, an X-axis guide rail seat, an X-axis sliding seat, a Y-axis sliding block and an X-axis crossed ball bearing, the X-axis motor is connected to the end face of the base through bolts, the X-axis motor is connected to one end of the X-axis ball screw through a coupler, one end of the X-axis ball screw penetrates through the X-axis supporting seat and one side of the X-axis supporting seat is connected to the X-axis sliding seat, the X-axis supporting seat is connected to the end face of the base through bolts, the tip at X axle guide rail seat is connected to the X axle slide, X axle guide rail seat passes through bolted connection on the terminal surface of base, the end connection of X axle slide has Y axle slider, the end connection of Y axle slider has X axle ball bearing that intersects, X axle ball bearing that intersects connects the bottom at the workstation.

Preferably, the main Y-axis driven module comprises a Y-axis motor, a Y-axis supporting seat, a Y-axis ball screw, a Y-axis guide rail seat, a Y-axis sliding seat, an X-axis sliding block and a Y-axis crossed ball bearing, the Y-axis motor is connected on the end surface of the base through a bolt, the Y-axis motor is connected at one end of the Y-axis ball screw through a coupling, one end of the Y-axis ball screw penetrates through the Y-axis support seat, one side of the Y-axis support seat is connected to the Y-axis sliding seat, the Y-axis support base is connected on the end surface of the base through a bolt, the Y-axis sliding base is connected on the end part of the Y-axis guide rail base, the Y-axis guide rail base is connected on the end surface of the base through a bolt, the end part of the Y-axis sliding seat is connected with an X-axis sliding block, the end part with the X-axis sliding block is connected with a Y-axis crossed ball bearing, and the Y-axis crossed ball bearing is connected to the bottom of the workbench.

Preferably, the connection mode of the X-axis ball screw and the X-axis support seat is a rotational connection, the connection mode of the X-axis slide seat with a threaded hole and the X-axis ball screw is a threaded connection, the connection mode of the X-axis slide seat and the X-axis guide rail seat is a sliding connection and moves along the X-axis direction, and the connection mode of the X-axis slide seat and the Y-axis slide block is a sliding connection and moves along the Y-axis direction.

Preferably, the structure and the structural connection mode of the main X-axis driven module and the auxiliary X-axis driven module are the same.

Preferably, the connection mode of Y axle ball screw and Y axle supporting seat is for rotating the connection, the connection mode of Y axle slide and Y axle guide rail seat is sliding connection and moves along the Y axle direction, set up threaded hole on the Y axle slide and with the connection mode of Y axle ball screw be threaded connection, the connection mode of Y axle slide and X axle slider is sliding connection and moves along the X axle direction.

Preferably, the structure and the connection mode of the structure of the main Y-axis driven module and the auxiliary Y-axis driven module are the same.

Preferably, the terminal surface of base and be provided with spacing post with the driven module of main X axle, vice X axle driven module and vice Y axle driven module one-to-one respectively, the motor in the driven module of main X axle, the driven module of main Y axle, vice X axle driven module and vice Y axle driven module passes through wire electric connection respectively on the controller.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, through set up intercrossing's driven module between base and workstation, realize that UVW vision counterpoint platform is at X, Y axial motion, and then can carry out the displacement according to the work demand in the equidirectional regulation, can satisfy daily work demand, improved the performance of UVW vision counterpoint platform simultaneously.

Drawings

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

FIG. 2 is a schematic diagram of a partial explosion structure of the present invention;

fig. 3 is a schematic view of a part of the structure of the present invention.

In the figure: the device comprises a base 1, a main X-axis driven module 2, a main Y-axis driven module 3, an auxiliary X-axis driven module 4, an auxiliary Y-axis driven module 5, a workbench 6, an X-axis motor 7, an X-axis support seat 8, an X-axis ball screw 9, an X-axis guide rail seat 10, an X-axis slide seat 11, a Y-axis slide block 12, an X-axis crossed ball bearing 13, a Y-axis motor 14, a Y-axis support seat 15, a Y-axis ball screw 16, a Y-axis guide rail seat 17, a Y-axis slide seat 18, an X-axis slide block 19, a Y-axis crossed ball bearing 20 and a limiting column 21.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution:

a precise UVW visual alignment platform comprises a base 1, wherein a main X-axis driven module 2, a main Y-axis driven module 3, an auxiliary X-axis driven module 4 and an auxiliary Y-axis driven module 5 are sequentially arranged at four corners of the end face of the base 1, the ends of the main X-axis driven module 2, the main Y-axis driven module 3, the auxiliary X-axis driven module 4 and the auxiliary Y-axis driven module 5 are respectively and correspondingly connected to the four corners of the bottom of a workbench 6, the main X-axis driven module 2 comprises an X-axis motor 7, an X-axis supporting seat 8, an X-axis ball screw 9, an X-axis guide rail seat 10, an X-axis sliding seat 11, a Y-axis sliding block 12 and an X-axis crossed ball bearing 13, the X-axis motor 7 is connected to the end face of the base 1 through bolts, the X-axis motor 7 is connected to one end of the X-axis ball screw 9 through a coupler, one end of the X-axis ball screw 9 penetrates through the X-axis supporting seat 8, the X-axis supporting seat 8 is connected to the end face of the base 1 through a bolt, the X-axis sliding seat 11 is connected to the end portion of the X-axis guide rail seat 10, the X-axis guide rail seat 10 is connected to the end face of the base 1 through a bolt, the end portion of the X-axis sliding seat 11 is connected with the Y-axis sliding block 12, the end portion of the Y-axis sliding block 12 is connected with the X-axis crossed ball bearing 13, and the X-axis crossed ball bearing 13 is connected to the bottom of the workbench 6.

Further, the main Y-axis driven module 3 comprises a Y-axis motor 14, a Y-axis support seat 15, a Y-axis ball screw 16, the Y-axis guide rail seat 17, the Y-axis slide seat 18, the X-axis slide block 19 and the Y-axis crossed ball bearing 20, the Y-axis motor 14 is connected to the end face of the base 1 through a bolt, the Y-axis motor 14 is connected to one end of the Y-axis ball screw 16 through a coupling, one end of the Y-axis ball screw 16 penetrates through the Y-axis support seat 15, one side of the Y-axis support seat 15 is connected to the Y-axis slide seat 18, the Y-axis support seat 15 is connected to the end face of the base 1 through a bolt, the Y-axis slide seat 18 is connected to the end face of the Y-axis guide rail seat 17, the Y-axis guide rail seat 17 is connected to the end face of the base 1 through a bolt, the X-axis slide block 19 is connected to the end of the Y-axis slide seat 18, the Y-axis crossed ball bearing 20 is connected to the end of the X-axis slide block 19, and the Y-axis crossed ball bearing 20 is connected to the bottom of the workbench 6.

Further, on the terminal surface of base 1 and be provided with spacing post 21 with the driven module 2 of main X axle, the driven module 3 of main Y axle, vice X axle driven module 4 and vice Y axle driven module 5 one-to-one respectively, the motor in the driven module 2 of main X axle, the driven module 3 of main Y axle, vice X axle driven module 4 and vice Y axle driven module 5 passes through wire electric connection respectively on the controller.

The utility model discloses work flow: when the device is used, under the action that motors in the main X-axis driven module 2, the main Y-axis driven module 3, the auxiliary X-axis driven module 4 and the auxiliary Y-axis driven module 5 are respectively and electrically connected to a controller through leads, equipment is electrified, and the electrification is finished; according to the working requirement, when the X-axis direction needs to be moved, under the action that the structures and the structural connection modes of the main X-axis driven module 2 and the auxiliary X-axis driven module 4 are the same, the operation controller respectively starts the X-axis motors 7 in the main X-axis driven module 2 and the auxiliary X-axis driven module 4, the X-axis motors 7 rotate after being started, the connection mode of the X-axis ball screws 9 and the X-axis support seats 8 is rotational connection, the X-axis slide seat 11 is provided with threaded holes and is in threaded connection with the X-axis ball screws 9, the connection mode of the X-axis slide seat 11 and the X-axis guide rail seat 10 is sliding connection and moves along the X-axis direction, and the connection mode of the Y-axis slide seat 18 and the X-axis slide block 19 is sliding connection and moves along the X-axis direction, layer-by-layer transmission is carried out, so as to drive the X-axis guide rail seat 10 connected on the X-axis slide seat 11 to move along the X-axis direction, meanwhile, an X-axis slide block 19 on the Y-axis slide seat 18 is driven to move in the X axial direction, namely, the workbench 6 is driven to move in the X axial direction;

according to the working requirement, when the Y-axis direction needs to be moved, under the action that the structures of the main Y-axis driven module 3 and the auxiliary Y-axis driven module 5 are the same and the connection modes of the structures are the same, the operation controller respectively starts the Y-axis motors 14 in the main Y-axis driven module 3 and the auxiliary Y-axis driven module 5, the Y-axis motors 14 rotate after being started, the connection modes of the Y-axis ball screws 16 and the Y-axis support bases 15 are in rotating connection, the connection modes of the Y-axis slide bases 18 and the Y-axis guide rail bases 17 are in sliding connection and move along the Y-axis direction, the Y-axis slide bases 18 are provided with threaded holes and are in threaded connection with the Y-axis ball screws 16, and the connection modes of the X-axis slide bases 11 and the Y-axis slide blocks 12 are in sliding connection and move along the Y-axis direction, layer-by-layer transmission is carried out to drive the Y-axis slide bases 18 on the Y-axis guide rail bases 17 to move along the Y-axis direction, drive Y axle slider 12 on the X axle slide 11 simultaneously and remove along Y axle direction, drive promptly and move in Y direction, this process is through setting up intercrossing's driven module between base and workstation, realizes that UVW vision counterpoints the platform at X, Y axial motion, and then can carry out the displacement according to the work demand in the equidirectional regulation, can satisfy daily work demand, has improved the performance of UVW vision counterpoint platform simultaneously.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a precision UVW vision counterpoint platform, includes base (1), its characterized in that: the end face four corners of the base (1) are sequentially provided with a main X-axis driven module (2), a main Y-axis driven module (3), an auxiliary X-axis driven module (4) and an auxiliary Y-axis driven module (5), the ends of the main X-axis driven module (2), the main Y-axis driven module (3), the auxiliary X-axis driven module (4) and the auxiliary Y-axis driven module (5) are respectively and correspondingly connected with the four corners of the bottom of the workbench (6), the main X-axis driven module (2) comprises an X-axis motor (7), an X-axis supporting seat (8), an X-axis ball screw (9), an X-axis guide rail seat (10), an X-axis sliding seat (11), a Y-axis sliding block (12) and an X-axis crossed ball bearing (13), the X-axis motor (7) is connected on the end face of the base (1) through a bolt, the X-axis motor (7) is connected with one end of the X-axis ball screw (9) through a shaft connector, one end of X axle ball screw (9) runs through X axle supporting seat (8) and one side of X axle supporting seat (8) is connected on X axle slide (11), X axle supporting seat (8) are on the terminal surface of base (1) through bolted connection, the tip at X axle guide rail seat (10) is connected in X axle slide (11), X axle guide rail seat (10) are on the terminal surface of base (1) through bolted connection, the end connection of X axle slide (11) has Y axle slider (12), the end connection of Y axle slider (12) has X axle ball bearing (13) that intersects, the bottom at workstation (6) is connected in X axle ball bearing (13) that intersects.

2. A precision UVW vision alignment platform according to claim 1, wherein: the main Y-axis driven module (3) comprises a Y-axis motor (14), a Y-axis supporting seat (15), a Y-axis ball screw (16), a Y-axis guide rail seat (17), a Y-axis sliding seat (18), an X-axis sliding block (19) and a Y-axis crossed ball bearing (20), wherein the Y-axis motor (14) is connected to the end face of the base (1) through a bolt, the Y-axis motor (14) is connected to one end of the Y-axis ball screw (16) through a shaft coupler, one end of the Y-axis ball screw (16) penetrates through the Y-axis supporting seat (15) and one side of the Y-axis supporting seat (15) is connected to the Y-axis sliding seat (18), the Y-axis supporting seat (15) is connected to the end face of the base (1) through a bolt, the Y-axis sliding seat (18) is connected to the end portion of the Y-axis guide rail seat (17), and the Y-axis guide rail seat (17) is connected to the end face of the base (1) through a bolt, the end part of the Y-axis sliding seat (18) is connected with an X-axis sliding block (19), the end part of the X-axis sliding block (19) is connected with a Y-axis crossed ball bearing (20), and the Y-axis crossed ball bearing (20) is connected to the bottom of the workbench (6).

3. A precision UVW vision alignment platform according to claim 1, wherein: the X-axis ball screw (9) is connected for rotating with the connected mode of X-axis supporting seat (8), set up threaded hole on X-axis slide (11) and be threaded connection with the connected mode of X-axis ball screw (9), the connected mode of X-axis slide (11) and X-axis guide rail seat (10) is sliding connection and moves along the X axle direction, the connected mode of X-axis slide (11) and Y-axis slider (12) is sliding connection and moves along the Y axle direction.

4. A precision UVW vision alignment platform according to claim 1 or 3, wherein: the structure and the structural connection mode of the main X-axis driven module (2) and the auxiliary X-axis driven module (4) are the same.

5. A precision UVW vision alignment platform according to claim 2, wherein: the Y-axis ball screw (16) is connected with the Y-axis supporting seat (15) in a rotating mode, the Y-axis sliding seat (18) is connected with the Y-axis guide rail seat (17) in a sliding mode and moves along the Y-axis direction, a threaded hole is formed in the Y-axis sliding seat (18) and is connected with the Y-axis ball screw (16) in a threaded mode, and the Y-axis sliding seat (18) is connected with the X-axis sliding block (19) in a sliding mode and moves along the X-axis direction.

6. A precision UVW vision alignment platform according to claim 2 or claim 5, wherein: the structure and the connection mode of the structure of the main Y-axis driven module (3) and the auxiliary Y-axis driven module (5) are the same.

7. A precision UVW vision alignment platform according to claim 1, wherein: the motor that is provided with spacing post (21) on the terminal surface of base (1) and respectively with the driven module of main X axle (2), vice X axle driven module (4) and vice Y axle driven module (5) one-to-one, the driven module of main X axle (2), the driven module of main Y axle (3), vice X axle driven module (4) and vice Y axle driven module (5) respectively passes through wire electric connection on the controller.