CN215751512U - Novel marking and aligning mechanism of finished product measuring machine - Google Patents

Abstract

The utility model discloses a novel marking and aligning mechanism of a formation testing machine, which comprises a base; the base is provided with a Y-axis displacement module and a support piece, and the Y-axis displacement module is provided with an X-axis displacement module; a finished product positioning piece is arranged on the X-axis displacement module, and the end part of the finished product positioning piece is abutted against the top surface of the supporting piece; the Y-axis displacement module drives the X-axis displacement module to drive the finished product positioning piece to move in the Y-axis direction, and the X-axis displacement module drives the finished product positioning piece to move in the X-axis direction. According to the utility model, the finished product is placed on the finished product positioning piece after being sucked and loaded, the X-axis displacement module drives the finished product to return to the right on the X axis, and then the Y-axis displacement module drives the finished product to return to the right on the Y axis, so that the finished product is ensured to completely return to the right when being marked, the marking position consistency of the finished product is ensured, the product percent of pass is improved, and the production efficiency is improved.

Description

Novel marking and aligning mechanism of finished product measuring machine

Technical Field

The utility model belongs to the technical field of finished product testing machine equipment, and particularly relates to a novel marking and aligning mechanism of a finished product testing machine.

Background

Original one becomes to survey quick-witted mark normal position mechanism in movable cam 35 drives normal position movable plate 33 and removes, the matching setting of rethread normal position stationary blade 34 plays a normal position effect, however, normal position mechanism can't guarantee at normal position in-process that the finished product returns just, can influence the next track like this and beat the mark process, can not guarantee to beat the uniformity of mark position at every turn, influences the qualification rate of beating the mark, causes the production waste, the problem that the qualification rate descends.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems in the prior art and provides a novel marking and aligning mechanism of a forming and measuring machine.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a novel marking and aligning mechanism of an integrated measuring machine comprises a base; the method is characterized in that: the base is provided with a Y-axis displacement module and a support piece, and the Y-axis displacement module is provided with an X-axis displacement module; a finished product positioning piece is arranged on the X-axis displacement module, and the end part of the finished product positioning piece is abutted against the top surface of the supporting piece; the Y-axis displacement module drives the X-axis displacement module to drive the finished product positioning piece to move in the Y-axis direction, and the X-axis displacement module drives the finished product positioning piece to move in the X-axis direction. According to the utility model, the Y-axis displacement module is arranged on the base, the X-axis displacement module is arranged on the Y-axis displacement module, the finished product positioning piece is arranged on the X-axis displacement module, the supporting piece is arranged at the bottom of the finished product positioning piece, and the supporting piece plays a supporting role for the finished product positioning piece, so that the stability of a finished product is improved when the finished product positioning piece is in a positive position process, the finished product is placed on the finished product positioning piece after being sucked and fed, the X-axis displacement module drives the finished product to return to the positive position on the X axis, then the Y-axis displacement module drives the finished product to return to the positive position on the Y axis, the complete return of the positive position when the finished product is marked is ensured, the consistency of the marking position of the finished product is ensured, the product qualification rate is improved, and the production efficiency is improved.

Further, Y axle displacement module includes Y axial displacement board and first driving piece, and on Y axial displacement board was located to X axle displacement module, the bottom surface of Y axial displacement board was equipped with first slider, and the top surface correspondence of base was equipped with Y axial slide rail, and first slider sliding connection carries out Y axial displacement along Y axial slide rail on the Y axial slide rail, first driving piece is used for driving Y axial displacement board. The Y-axis displacement plate is driven by the first driving piece to move in the Y-axis direction, and the Y-axis displacement plate drives the X-axis displacement module and the finished product positioning piece to move in the Y-axis direction, so that the Y-axis displacement module controls the finished product to return to the right position in the Y-axis direction.

Further, first driving piece includes Y axial driving motor, first driving gear and first drive seat, first driving gear fixed connection is at Y axial driving motor's tip, the bottom fixed connection of first drive seat is at the top surface of Y axial displacement board, the top surface of first drive seat is equipped with first rack, first rack and first driving gear intermeshing, thereby the first driving gear of Y axial driving motor drive rotates and controls first drive seat and drive Y axial displacement board and carry out Y axial displacement along Y axial slide rail. The Y-axis driving motor drives the first driving gear to rotate, so that the first rack is controlled to drive the first driving seat and the Y-axis displacement plate to move in the Y-axis direction, and the Y-axis driving motor controls the finished product to return to the right position in the Y-axis direction.

Furthermore, the top surface of base is equipped with first fixing base, and one side correspondence of Y axial displacement board is equipped with the second fixing base, is equipped with first spring between first fixing base and the second fixing base. The arrangement of the first spring plays a role in resetting and buffering the movement of the Y-axis displacement plate.

Furthermore, the outer side wall of the base corresponds to the Y-axis sliding rail and is fixedly connected with a limiting block. The setting of stopper plays a limiting role to the setting of Y axial displacement board.

Furthermore, the X-axis displacement module comprises an X-axis axial displacement plate and a second driving piece, the finished product positioning piece is arranged on the X-axis axial displacement plate, a second sliding block is arranged at the bottom of the X-axis axial displacement plate, an X-axis sliding rail is arranged on the top surface of the Y-axis axial displacement plate, the second sliding block is connected to the X-axis sliding rail in a sliding mode, and the second driving piece is used for driving the X-axis axial displacement plate to move in the X-axis direction along the X-axis sliding rail. The X axial displacement plate is driven by the second driving piece to move in the X axial direction, and the X axial displacement plate drives the finished product positioning piece to move in the X axial direction, so that the X axial displacement module controls the base to return to the right position in the X axial direction.

Furthermore, the second driving piece comprises an X axial driving motor, a second driving gear and a second driving seat, the second driving gear is fixedly connected to the end portion of the X axial driving motor, the bottom of the second driving seat is fixedly connected to the top surface of the Y axial displacement plate, a second rack is arranged on the top surface of the second driving seat, the second rack is meshed with the second driving gear, the X axial driving motor drives the second driving gear to rotate, and therefore the second driving seat is controlled to drive the X axial displacement plate to move in the X axial direction along the X axial sliding rail. The X axial driving motor drives the second driving gear to rotate, so that the second gear rack is controlled to drive the second driving seat and the X axial displacement plate to move in the X axial direction, and the X axial driving motor controls the finished product positioning piece to return to the positive position in the X axial direction.

Furthermore, the bottom of the X axial displacement plate is provided with a third fixing seat, the Y axial displacement module is correspondingly provided with a fourth fixing seat, and a second spring is arranged between the third fixing seat and the fourth fixing seat. The second spring is arranged to play a role in resetting and buffering the movement of the X axial displacement plate.

Further, the finished product positioning piece comprises a support and a finished product positioning plate, the bottom of the support is fixedly connected to the X axial displacement module, one end of the finished product positioning plate is fixedly connected to the top of the support, and the other end of the finished product positioning plate abuts against the top surface of the supporting piece. The support is used for fixing a finished product positioning plate, and the finished product positioning plate is used for preventing finished products, so that the X-axis displacement module and the Y-axis displacement module can conveniently return to the finished products in the X-axis direction and the Y-axis direction respectively.

Further, support piece includes fixed block and supporting seat, and the supporting seat is fixed at the top surface of base, and fixed block fixed connection is at the top surface of supporting seat, and the fixed block supports the bottom surface at the finished product locating plate. The supporting seat and the fixing block are arranged to support the finished product positioning plate, so that the finished product positioning plate is in the righting process, and the stability of a finished product is improved.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

according to the utility model, the Y-axis displacement module is arranged on the base, the X-axis displacement module is arranged on the Y-axis displacement module, the finished product positioning piece is arranged on the X-axis displacement module, the supporting piece is arranged at the bottom of the finished product positioning piece, and the supporting piece plays a supporting role for the finished product positioning piece, so that the stability of a finished product is improved when the finished product positioning piece is in a positive position process, the finished product is placed on the finished product positioning piece after being sucked and fed, the X-axis displacement module drives the finished product to return to the positive position on the X axis, then the Y-axis displacement module drives the finished product to return to the positive position on the Y axis, the complete return of the positive position when the finished product is marked is ensured, the consistency of the marking position of the finished product is ensured, the product qualification rate is improved, and the production efficiency is improved.

The Y-axis displacement module comprises a Y-axis displacement plate and a first driving piece, the X-axis displacement module is arranged on the Y-axis displacement plate, a first sliding block is arranged on the bottom surface of the Y-axis displacement plate, a Y-axis sliding rail is correspondingly arranged on the top surface of the base, the first sliding block is connected to the Y-axis sliding rail in a sliding mode, and the first driving piece is used for driving the Y-axis displacement plate to move in the Y axis direction along the Y-axis sliding rail. The Y-axis displacement plate is driven by the first driving piece to move in the Y-axis direction, and the Y-axis displacement plate drives the X-axis displacement module and the finished product positioning piece to move in the Y-axis direction, so that the Y-axis displacement module controls the finished product to return to the right position in the Y-axis direction.

The X-axis displacement module comprises an X-axis displacement plate and a second driving piece, a finished product positioning piece is arranged on the X-axis displacement plate, a second sliding block is arranged at the bottom of the X-axis displacement plate, an X-axis sliding rail is arranged on the top surface of the Y-axis displacement plate, the second sliding block is connected to the X-axis sliding rail in a sliding mode, and the second driving piece is used for driving the X-axis displacement plate to move in the X-axis direction along the X-axis sliding rail. The X axial displacement plate is driven by the second driving piece to move in the X axial direction, and the X axial displacement plate drives the finished product positioning piece to move in the X axial direction, so that the X axial displacement module controls the base to return to the right position in the X axial direction.

Drawings

The utility model will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of a marking and aligning mechanism of an original measuring machine;

FIG. 2 is a schematic structural diagram of a marking and aligning mechanism of a novel formation testing machine according to the present invention;

FIG. 3 is a schematic view of the structure in the direction A of FIG. 2;

fig. 4 is a schematic view of the structure in the direction B in fig. 2.

In the figure, 1-base; a 2-Y axis displacement module; 3-a support; a 4-X axis displacement module; 5-finished product positioning piece; a 6-Y axial displacement plate; 7-a first driving member; 8-a first slider; 9-Y axial slide rail; a 10-Y axial drive motor; 11-a first drive gear; 12-a first drive socket; 13-a first rack; 14-a first fixed seat; 15-a second fixed seat; 16-a first spring; 17-a limiting block; an 18-X axial displacement plate; 19-a second drive member; 20-a second slide; 21-X axial slide rail; a 22-X axial drive motor; 23-a second drive gear; 24-a second drive socket; 25-a second rack; 26-a third fixed seat; 27-a fourth holder; 28-a second spring; 29-a support; 30-a finished product positioning plate; 31-fixing block; 32-a support base; 33-a righting movable plate; 34-a righting fixing piece; 35-movable cam.

Detailed Description

As shown in fig. 1 to 4, the marking and aligning mechanism of the novel formation testing machine of the utility model comprises a base 1; a Y-axis displacement module 2 and a support 3 are arranged on the base 1, and an X-axis displacement module 4 is arranged on the Y-axis displacement module 2; a finished product positioning piece 5 is arranged on the X-axis displacement module 4, and the end part of the finished product positioning piece 5 is abutted against the top surface of the support piece 3; the Y-axis displacement module 2 drives the X-axis displacement module 4 to drive the finished product positioning piece 5 to move in the Y-axis direction, and the X-axis displacement module 4 drives the finished product positioning piece 5 to move in the X-axis direction.

Y axle displacement module 2 includes Y axial displacement board 6 and first driving piece 7, and on Y axial displacement board 6 was located to X axle displacement module 4, the bottom surface of Y axial displacement board 6 was equipped with first slider 8, and the top surface correspondence of base 1 was equipped with Y axial slide rail 9, and 8 sliding connection of first slider are on Y axial slide rail 9, and first driving piece 7 is used for driving Y axial displacement board 6 and carries out Y axial displacement along Y axial slide rail 9. The Y-axis displacement plate 6 is driven by the first driving piece 7 to move in the Y-axis direction, and the Y-axis displacement plate 6 drives the X-axis displacement module 4 and the finished product positioning piece 5 to move in the Y-axis direction, so that the Y-axis displacement module 2 controls the finished product to return to the right position in the Y-axis direction.

First driving piece 7 includes Y axial driving motor 10, first driving gear 11 and first drive seat 12, first driving gear 11 fixed connection is at Y axial driving motor 10's tip, the bottom fixed connection of first drive seat 12 is at the top surface of Y axial displacement board 6, the top surface of first drive seat 12 is equipped with first rack 13, first rack 13 and first driving gear 11 intermeshing, thereby Y axial driving motor 10 drives first driving gear 11 and rotates and control first drive seat 12 and drive Y axial displacement board 6 and carry out Y axial displacement along Y axial slide rail 9. The Y-axis driving motor 10 drives the first driving gear 11 to rotate, so that the first rack 13 is controlled to drive the first driving seat 12 and the Y-axis displacement plate 6 to move in the Y-axis direction, and the Y-axis driving motor 10 controls the finished product to return to the right position in the Y-axis direction.

The top surface of base 1 is equipped with first fixing base 14, and one side correspondence of Y axial displacement board 6 is equipped with second fixing base 15, is equipped with first spring 16 between first fixing base 14 and the second fixing base 15. The first spring 16 is arranged to act as a return and buffer for the movement of the Y-axis displacement plate 6.

The outer side wall of the base 1 corresponds to the Y-axis slide rail 9 and is fixedly connected with a limiting block 17. The arrangement of the limiting block 17 plays a limiting role in the arrangement of the Y-axis displacement plate 6.

The X-axis displacement module 4 comprises an X-axis displacement plate 18 and a second driving piece 19, the finished product positioning piece 5 is arranged on the X-axis displacement plate 18, a second sliding block 20 is arranged at the bottom of the X-axis displacement plate 18, an X-axis sliding rail 21 is arranged on the top surface of the Y-axis displacement plate 6, the second sliding block 20 is connected to the X-axis sliding rail 21 in a sliding mode, and the second driving piece 19 is used for driving the X-axis displacement plate 18 to move in the X-axis direction along the X-axis sliding rail 21. The X axial displacement plate 18 is driven by the second driving piece 19 to move in the X axial direction, and the finished product positioning piece 5 is driven by the X axial displacement plate 18 to move in the X axial direction, so that the X axial displacement module 4 controls the base to return to the right in the X axial direction.

The second driving member 19 includes an X axial driving motor 22, a second driving gear 23 and a second driving seat 24, the second driving gear 23 is fixedly connected to an end of the X axial driving motor 22, a bottom of the second driving seat 24 is fixedly connected to a top surface of the Y axial displacement plate 6, a second rack 25 is arranged on the top surface of the second driving seat 24, the second rack 25 is meshed with the second driving gear 23, the X axial driving motor 22 drives the second driving gear 23 to rotate, so that the second driving seat 24 is controlled to drive the X axial displacement plate 18 to move along the X axial sliding rail 21 in the X axial direction. The X-axis driving motor 22 drives the second driving gear 23 to rotate, so as to control the second rack 25 to drive the second driving seat 24 and the X-axis displacement plate 18 to move in the X-axis direction, thereby realizing that the X-axis driving motor 22 controls the finished product positioning element 5 to return to the positive position in the X-axis direction.

The bottom of the X axial displacement plate 18 is provided with a third fixing seat 26, the Y axial displacement module 2 is correspondingly provided with a fourth fixing seat 27, and a second spring 28 is arranged between the third fixing seat 26 and the fourth fixing seat 27. The second spring 28 is arranged to provide a return and damping action on the movement of the X-axis displacement plate 18.

The finished product positioning member 5 comprises a support 29 and a finished product positioning plate 30, the bottom of the support 29 is fixedly connected to the X axial displacement module, one end of the finished product positioning plate 30 is fixedly connected to the top of the support 29, and the other end of the finished product positioning plate 30 abuts against the top surface of the support 3. The support 29 is used for fixing the finished product positioning plate 30, and the finished product positioning plate 30 is used for preventing finished products, so that the X-axis displacement module 4 and the Y-axis displacement module 2 can conveniently align the finished products in the X-axis direction and the Y-axis direction respectively.

The supporting member 3 includes a fixing block 31 and a supporting seat 32, the supporting seat 32 is fixed on the top surface of the base 1, the fixing block 31 is fixedly connected on the top surface of the supporting seat 32, and the fixing block 31 abuts against the bottom surface of the finished product positioning plate 30. The supporting seat 32 and the fixing block 31 support the finished product positioning plate 30, so that the finished product positioning plate 30 is positioned in the right position process, and the stability of the finished product is improved.

According to the utility model, the Y-axis displacement module 2 is arranged on the base 1, the X-axis displacement module 4 is arranged on the Y-axis displacement module 2, the finished product positioning piece 5 is arranged on the X-axis displacement module 4, the supporting piece 3 is arranged at the bottom of the finished product positioning piece 5, and the supporting piece 3 plays a supporting role on the finished product positioning piece 5, so that the finished product positioning piece 5 is positioned in the positive process, the stability of a finished product is improved, the finished product is placed on the finished product positioning piece 5 after being sucked and fed, the X-axis displacement module 4 drives the finished product to return to the positive position on the X axis, then the Y-axis displacement module 2 drives the finished product to return to the positive position on the Y axis, the position of the finished product is completely returned to the positive position when the finished product is marked, the consistency of the marking position of the finished product is ensured, the product qualification rate is improved, and the production efficiency is improved.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made based on the present invention to solve the same technical problems and achieve the same technical effects are within the scope of the present invention.

Claims (10)

1. The utility model provides a novel become to survey quick-witted mark normal position mechanism of beating, includes:

a base;

the method is characterized in that:

the base is provided with a Y-axis displacement module and a support piece, and the Y-axis displacement module is provided with an X-axis displacement module; a finished product positioning piece is arranged on the X-axis displacement module, and the end part of the finished product positioning piece is abutted against the top surface of the supporting piece;

the Y-axis displacement module drives the X-axis displacement module to drive the finished product positioning piece to move in the Y-axis direction, and the X-axis displacement module drives the finished product positioning piece to move in the X-axis direction.

2. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 1, characterized in that: the Y-axis displacement module comprises a Y-axis displacement plate and a first driving piece, the X-axis displacement module is arranged on the Y-axis displacement plate, a first sliding block is arranged on the bottom surface of the Y-axis displacement plate, a Y-axis sliding rail is correspondingly arranged on the top surface of the base, the first sliding block is connected to the Y-axis sliding rail in a sliding mode, and the first driving piece is used for driving the Y-axis displacement plate to move in the Y-axis direction along the Y-axis sliding rail in the Y-axis direction.

3. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 2, characterized in that: first driving piece includes Y axial driving motor, first driving gear and first drive seat, first driving gear fixed connection be in Y axial driving motor's tip, the bottom fixed connection of first drive seat is in the top surface of Y axial displacement board, the top surface of first drive seat is equipped with first rack, first rack with first driving gear intermeshing, Y axial driving motor drive thereby first driving gear rotates control first drive seat drives Y axial displacement board along Y axial slide rail carries out Y axial displacement.

4. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 2, characterized in that: the top surface of base is equipped with first fixing base, one side correspondence of Y axial displacement board is equipped with the second fixing base, first fixing base with be equipped with first spring between the second fixing base.

5. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 2, characterized in that: the outer side wall of the base corresponds to the Y-axis sliding rail fixedly connected with limiting blocks.

6. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 2, characterized in that: the X-axis displacement module comprises an X-axis axial displacement plate and a second driving piece, the finished product positioning piece is arranged on the X-axis axial displacement plate, a second slider is arranged at the bottom of the X-axis axial displacement plate, an X-axis sliding rail is arranged on the top surface of the Y-axis axial displacement plate, the second slider is connected to the X-axis sliding rail in a sliding mode, and the second driving piece is used for driving the X-axis axial displacement plate to move along the X-axis sliding rail in the X-axis axial direction.

7. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 6, wherein: the second driving piece comprises an X axial driving motor, a second driving gear and a second driving seat, the second driving gear is fixedly connected to the end portion of the X axial driving motor, the bottom of the second driving seat is fixedly connected to the top surface of the Y axial displacement plate, a second rack is arranged on the top surface of the second driving seat, the second rack is meshed with the second driving gear, the X axial driving motor drives the second driving gear to rotate, and therefore the second driving seat drives the X axial displacement plate to move along the X axial sliding rail in the X axial direction.

8. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 6, wherein: the bottom of the X axial displacement plate is provided with a third fixing seat, the Y axial displacement module is correspondingly provided with a fourth fixing seat, and a second spring is arranged between the third fixing seat and the fourth fixing seat.

9. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 1, characterized in that: the finished product locating piece comprises a support and a finished product locating plate, the bottom of the support is fixedly connected to the X axial displacement module, one end of the finished product locating plate is fixedly connected to the top of the support, and the other end of the finished product locating plate abuts against the top surface of the supporting piece.

10. The novel marking and aligning mechanism of the formation testing machine as claimed in claim 9, wherein: the supporting piece comprises a fixing block and a supporting seat, the supporting seat is fixed to the top surface of the base, the fixing block is fixedly connected to the top surface of the supporting seat, and the fixing block abuts against the bottom surface of the finished product positioning plate.

Images