CN220039303U - Go-no-go detection and deburring mechanism - Google Patents

Abstract

The utility model relates to a through-stop detection and deburring mechanism, comprising: the product positioning tool comprises a positioning seat at the bottom and a positioning block which is arranged in a sliding manner along the Z-axis direction, wherein the positioning seat is used for inserting and positioning the bottom of a product, and the positioning block is used for positioning a wing plate in the middle of the product; the go-no-go gauge detection mechanism comprises a go-no-go gauge, and the go-no-go gauge is used for detecting the size of a through hole at the upper end part of a product; and the deburring mechanism is arranged below the positioning seat and is used for removing burrs at the bottom of the product and in the inner cavity of the pipe. According to the utility model, the positioning block capable of moving up and down and the pressing mechanism are arranged to clamp products with various sizes, so that the applicability of the mechanism is enhanced; through holes on the product are automatically subjected to the go-no-go detection by arranging a go-no-go gauge detection mechanism; through setting up deburring mechanism, automatic carry out burring to the tip and the inner wall of product and handle, realize quick burring operation.

Description

Go-no-go detection and deburring mechanism

Technical Field

The utility model belongs to the technical field of detection equipment and deburring equipment, and particularly relates to a through-stop detection and deburring mechanism.

Background

The welding piece on the automobile needs to carry out the logical end detection of through-hole and carry out surface burring processing after the welding, and current processing method adopts the manual work to carry out logical end detection with logical end rule more, adopts hand mill or general burring equipment to carry out the burring operation, and work load is big and inefficiency, can not satisfy the production rhythm when batch production.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to solve the defects in the prior art, the utility model provides a go-no-go detection and deburring mechanism which aims at automatically carrying out the go-no-go detection and the rapid deburring operation of the through holes of the welding products.

The technical scheme adopted for solving the technical problems is as follows:

a stop detection and deburring mechanism comprising:

a frame;

the product positioning tool comprises a positioning seat at the bottom and a positioning block which is arranged in a sliding manner along the Z-axis direction, wherein the positioning seat is used for inserting and positioning the bottom of a product, and the positioning block is used for positioning a wing plate in the middle of the product;

the go-no-go gauge detection mechanism comprises a go-no-go gauge, and the go-no-go gauge is used for detecting the size of a through hole at the upper end part of a product;

and the deburring mechanism is arranged below the positioning seat and is used for removing burrs at the bottom of the product and in the inner cavity of the pipe.

Preferably, the through-stop detection and deburring mechanism further comprises a first mounting backboard, the first mounting backboard is arranged on the frame in a sliding mode along the Z-axis direction, a first screw nut driving mechanism is further arranged between the first mounting backboard and the frame, and the first screw nut driving mechanism is used for driving the first mounting backboard to slide along the Z-axis direction.

Preferably, the on-off detection and deburring mechanism comprises a second screw nut driving mechanism arranged along the Z-axis direction, wherein the second screw nut driving mechanism is arranged on a first mounting backboard, a moving part of the second screw nut driving mechanism is fixedly connected with the second mounting backboard, a first guide rail sliding block mechanism is arranged on the second mounting backboard along the Y-axis direction, a on-off gauge mounting seat is fixedly connected on a sliding block of the first guide rail sliding block mechanism, and the on-off gauge is fixedly arranged on the on-off gauge mounting seat.

Preferably, in the on-off detection and deburring mechanism provided by the utility model, the second mounting backboard is further provided with a driving cylinder, and the driving cylinder is used for driving the on-off gauge to slide along the first guide rail sliding block mechanism.

Preferably, the machine frame further comprises a bottom plate, and the positioning seat is fixedly arranged on the bottom plate.

Preferably, the deburring mechanism comprises a first guide post fixedly connected below a bottom plate, wherein a brush mounting seat is slidably arranged on the first guide post, a brush rotating shaft is rotatably arranged on the brush mounting seat, and a brush head for deburring is arranged at the upper end part of the brush rotating shaft.

Preferably, in the through-stop detection and deburring mechanism provided by the utility model, the brush mounting seat is fixedly provided with a rotating shaft driving mechanism, and the rotating shaft driving mechanism is used for driving the rotating shaft of the brush to rotate.

Preferably, the deburring mechanism further comprises a third screw-nut driving mechanism, wherein the third screw-nut driving mechanism is used for driving the brush mounting seat to slide along the first guide pillar.

Preferably, the through-stop detection and deburring mechanism further comprises a pressing mechanism, wherein the pressing mechanism is arranged above the positioning block and is used for pressing down a product clamped on the positioning seat.

Preferably, the pressing mechanism comprises a pressing block, and a through-stop avoidance position hole is formed in the pressing block.

The beneficial effects of the utility model are as follows:

(1) According to the utility model, the positioning block capable of moving up and down and the pressing mechanism are arranged to clamp products with various sizes, so that the applicability of the mechanism is enhanced;

(2) According to the utility model, through holes on the product are automatically subjected to the through-and-stop detection by arranging the through-and-stop gauge detection mechanism;

(3) Through setting up deburring mechanism, automatic carry out burring to the tip and the inner wall of product and handle, realize quick burring operation.

Drawings

The technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

FIG. 1 is a three-dimensional schematic of the overall structure of an embodiment of the utility model;

FIG. 2 is a three-dimensional schematic diagram of a go-no-go gauge detection mechanism and a hold-down mechanism according to an embodiment of the present utility model;

FIG. 3 is a three-dimensional schematic of a deburring mechanism according to an embodiment of the present utility model; the reference numerals in the figures are:

a frame 10;

a first mounting backplate 11;

a first lead screw nut drive mechanism 12; a bottom plate 13;

a second guide post 14;

a product positioning tool 20;

a positioning seat 21;

a positioning block 22;

a go-no-go gauge detecting mechanism 30;

go-no-go gauge 31;

a second lead screw nut drive mechanism 32; a second mounting backplate 33;

a first rail-slider mechanism 34;

a go-no-go gauge mounting seat 35;

a driving cylinder 36;

a deburring mechanism 40;

a first guide post 41;

a brush mounting base 42;

a brush rotation shaft 43;

a spindle drive mechanism 45;

a third lead screw nut drive mechanism 46;

a pressing mechanism 50;

a slide table cylinder 51;

a briquette 52;

the press block mounting seat 53.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the scope of the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

The technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings in combination with embodiments.

Examples

The embodiment provides a lead-through detection and deburring mechanism for a weldment on the car is automatic to carry out the lead-through detection of hole and lower extreme and tub inner wall burring operation after the welding is accomplished, and its structure is with reference to fig. 1, includes:

the rack 10 is used for connecting and supporting all fixing parts, the rack 10 further comprises a bottom plate 13, two second guide posts 14 along the Z-axis direction are fixedly connected to the bottom plate 13, the back surface of the first installation backboard 11 is provided with a linear guide rail which is slidably mounted on the second guide posts 14, a top plate is fixedly connected between the top ends of the two second guide posts 14, a first screw nut driving mechanism 12 is arranged between the top plate and the bottom plate 13, a movable nut of the first screw nut driving mechanism 12 is fixedly connected with the first installation backboard 11, and the first installation backboard 11 is driven to slide along the Z-axis direction.

The utility model provides a lead to and end detection and deburring mechanism, still includes product location frock 20, and product location frock 20 includes locating seat 21 and the locating piece 22 of fixed mounting on first installation backplate 11 on fixed mounting on bottom plate 13, is provided with the product spliced eye on the locating seat 21 for the lower tip of grafting location product, locating piece 22 set up to the angle dog, be used for the pterygoid lamina at location product middle part.

Preferably, a through-stop detection and deburring mechanism of this embodiment further includes a pressing mechanism 50, the pressing mechanism 50 is disposed above the positioning block 22, the pressing mechanism 50 includes a sliding table cylinder 51 fixedly mounted on the first mounting back plate 11 along the Z axis direction, a pressing block mounting seat 53 is fixedly mounted on a moving portion of the sliding table cylinder 51, a pressing block 52 is slidably disposed on the pressing block mounting seat 53 along the X axis direction, and an adjusting bolt is further disposed between the pressing block mounting seat 53 and the pressing block 52 for adjusting a position of the pressing block 52 relative to the pressing block mounting seat 53, when a product is clamped on the positioning seat 21 and the positioning block 22, the pressing block 52 is pressed on an upper end cover of the product under the driving of the sliding table cylinder 51 to press the product.

The utility model provides a lead to and end detection and deburring mechanism, still includes lead to no-go gage detection mechanism 30, and lead to no-go gage detection mechanism 30 includes lead to no-go gage 31, and lead to no-go gage 31 is used for detecting the through-hole size of product upper end.

Specifically, referring to fig. 2, the go-no-go gauge detecting mechanism 30 of the present embodiment includes a second lead screw nut driving mechanism 32 mounted on the first mounting back plate 11 along the Z axis direction, a second mounting back plate 33 fixedly connected to a moving part of the second lead screw nut driving mechanism 32, a first rail slide block mechanism 34 provided on the second mounting back plate 33 along the Y axis direction, a go-no-go gauge mounting seat 35 fixedly connected to a slide block of the first rail slide block mechanism 34, a go-no-go gauge 31 fixedly mounted on the go-no-go gauge mounting seat 35, and a driving cylinder 36 provided on the second mounting back plate 33, the driving cylinder 36 for driving the go-no-go gauge 31 to slide along the first rail slide block mechanism 34.

It should be noted that a plurality of photoelectric switches for monitoring the position of the go-no-go gauge mount 35 in the Z-axis direction are also provided between the go-no-go gauge mount 35 and the first mounting back plate 11, and one of the photoelectric switches is provided at a position where the go-no-go gauge 31 moves to be coaxial with the through hole of the product.

In actual operation, the second screw nut driving mechanism 32 drives the go-no-go gauge 31 to move along the Z-axis direction to be coaxial with the through hole of the product, the driving cylinder 36 drives the go-no-go gauge 31 to move along the Y-axis direction close to the product, the front end part of the go-no-go gauge 31 is a go gauge, the rear end part of the go-no-go gauge 31 is a no-go gauge, and when the go-no-go gauge section of the go-no-go gauge 31 passes through the through hole of the product but the no-go gauge cannot pass through, the through hole of the product is qualified; when the go gauge section of the go-no-go gauge 31 cannot pass through the through hole of the product, the through hole of the product is smaller; when the go gauge section and the no-go gauge section of the go-no-go gauge 31 can pass through the through hole of the product, the through hole of the product is larger.

Further, the pressing block 52 is provided with a clearance hole, when the end part of the go-no-go gauge 31 passes through the through hole of the product, the pressing block 52 passes through the clearance hole, and the pressing block 52 does not influence the movement of the go-no-go gauge 31.

The deburring mechanism 40 is arranged below the positioning seat 21 and is used for removing burrs at the bottom of a product and in the inner cavity of a pipe.

Specifically, referring to fig. 3, the deburring mechanism 40 includes a first guide post 41 fixedly connected below the bottom plate 13, a brush mounting seat 42 is slidably disposed on the first guide post 41, a brush rotating shaft 43 is rotatably disposed on the brush mounting seat 42, a bristle for deburring is disposed on an upper end portion of the brush rotating shaft 43, a rotating shaft driving mechanism 45 is fixedly disposed on the brush mounting seat 42, the rotating shaft driving mechanism 45 adopts a motor and a synchronous belt transmission mechanism, and the motor rotates to drive the rotation of the brush rotating shaft 43 through the transmission of the synchronous belt transmission mechanism.

The positioning seat 21 is provided with a through hole penetrating through the bottom plate 13 at the bottom, and the brush rotating shaft 43 and the brush head are coaxially arranged with the through hole, so that the brush rotating shaft 43 and the brush head can penetrate through the through hole to enter the inner cavity of the product.

Preferably, in the through-stop detection and deburring mechanism of the present embodiment, the deburring mechanism 40 further includes a third screw-nut driving mechanism 46, the lower end portion of the first guide post 41 is fixedly connected to the lower guard plate, the third screw-nut driving mechanism 46 is disposed between the lower guard plate and the bottom plate 13, and a nut of the third screw-nut driving mechanism 46 is fixedly connected to the brush mounting seat 42 to drive the brush mounting seat 42 to slide along the first guide post 41.

When the deburring work is performed, the rotating shaft driving mechanism 45 drives the brush rotating shaft 43 and the brush head to rotate rapidly, and the third screw nut driving mechanism 46 drives the brush head to move upwards, so that the deburring work is performed on the bottom end of a product and the inner wall of a pipe by the rapid rotation.

With the above-described preferred embodiments according to the present utility model as a teaching, the worker skilled in the art could make various changes and modifications without departing from the scope of the technical idea of the present application. The technical scope of the present application is not limited to the contents of the specification, and must be determined according to the scope of claims.

Claims (10)

1. A stop detection and deburring mechanism comprising:

a frame (10);

the product positioning tool (20), wherein the product positioning tool (20) comprises a positioning seat (21) at the bottom and a positioning block (22) which is arranged in a sliding manner along the Z-axis direction, the positioning seat (21) is used for being inserted and positioned at the bottom of a product, and the positioning block (22) is used for positioning a wing plate in the middle of the product;

the device comprises a go-no-go gauge detection mechanism (30), wherein the go-no-go gauge detection mechanism (30) comprises a go-no-go gauge (31), and the go-no-go gauge (31) is used for detecting the size of a through hole at the upper end part of a product;

and the deburring mechanism (40) is arranged below the positioning seat (21) and is used for removing burrs at the bottom of a product and in the inner cavity of the pipe.

2. The through-stop detection and deburring mechanism according to claim 1, further comprising a first mounting back plate (11), wherein the first mounting back plate (11) is slidably disposed on the frame (10) along the Z-axis direction, a first screw nut driving mechanism (12) is further disposed between the first mounting back plate (11) and the frame (10), and the first screw nut driving mechanism (12) is used for driving the first mounting back plate (11) to slide along the Z-axis direction.

3. The go-no-go detection and deburring mechanism according to claim 2, wherein the go-no-go gauge detection mechanism (30) comprises a second lead screw nut driving mechanism (32) arranged along the Z-axis direction, the second lead screw nut driving mechanism (32) is arranged on the first mounting backboard (11), a moving part of the second lead screw nut driving mechanism (32) is fixedly connected with the second mounting backboard (33), a first guide rail sliding block mechanism (34) is arranged on the second mounting backboard (33) along the Y-axis direction, a go-no-go gauge mounting seat (35) is fixedly connected on a sliding block of the first guide rail sliding block mechanism (34), and the go-no-go gauge (31) is fixedly mounted on the go-no-go gauge mounting seat (35).

4. A go-no-go detection and deburring mechanism as claimed in claim 3, wherein the second mounting backplate (33) is further provided with a drive cylinder (36), the drive cylinder (36) being adapted to drive the go-no-go gauge (31) to slide along the first rail-slider mechanism (34).

5. A stop detection and deburring mechanism according to any of the claims 1-4, characterized in that said frame (10) further comprises a base plate (13), said positioning seat (21) being fixedly arranged on said base plate (13).

6. The go-no-go detection and deburring mechanism as claimed in claim 5, wherein said deburring mechanism (40) comprises a first guide post (41) fixedly connected below the bottom plate (13), a brush mounting seat (42) is slidably provided on said first guide post (41), a brush rotating shaft (43) is rotatably provided on said brush mounting seat (42), and a bristle for deburring is provided on an upper end portion of said brush rotating shaft (43).

7. The go-no-go detection and deburring mechanism as set forth in claim 6, wherein said brush mounting base (42) is further fixedly provided with a rotation shaft driving mechanism (45), said rotation shaft driving mechanism (45) being for driving rotation of said brush rotation shaft (43).

8. The pass-stop detection and deburring mechanism of claim 6, further comprising a third lead screw nut drive mechanism (46), said third lead screw nut drive mechanism (46) for driving the brush mount (42) to slide along the first guide post (41).

9. A stop detection and deburring mechanism according to any of the claims 6-8, further comprising a hold-down mechanism (50), said hold-down mechanism (50) being arranged above the positioning block (22), said hold-down mechanism (50) being adapted to hold down a product clamped on the positioning block (21).

10. The go-no-go detection and deburring mechanism as claimed in claim 9, wherein said pressing mechanism (50) comprises a pressing block (52), said pressing block (52) being provided with a go-no-go evasion hole.