CN218211076U - Utensil is examined in rough detection of rzeppa holder lateral part window - Google Patents

Abstract

The utility model relates to the technical field of detection, and provides a checking fixture for rough detection of a side window of a ball cage type retainer, which comprises a lifting seat, a pressing piece, a rotating seat and a go-no go gauge, wherein the lifting seat is arranged on a rack in a lifting way; the pressing piece is rotatably arranged on the lifting seat; the rotating seat and the pressing piece form a clamping space which is used for clamping the rzeppa retainer; the telescopic piece is arranged on the frame; lead to the no-go gage setting on the extensible member, the flexible back of extensible member, lead to no-go gage detection window, lead to the no-go gage and include that gauge handle, first detection piece and second detect the piece and connect gradually, the gauge handle is connected on the extensible member, and first detection piece and second detection piece are spherical, and first detection piece diameter is greater than the second and detects a diameter. Through the technical scheme, the problem of low window detection speed in the prior art is solved.

Description

Utensil is examined in rough detection of rzeppa holder lateral part window

Technical Field

The utility model relates to a detect technical field, it is specific, relate to utensil is examined to rzeppa holder lateral part window rough detection.

Background

The rzeppa cage is an important component of the rzeppa universal coupling, and the driving shaft and the driven shaft are connected through the rzeppa universal coupling. The middle of the rzeppa cage is provided with a through hole, the periphery of the rzeppa cage is provided with windows, and when the rzeppa cage is manufactured, each window needs to be detected, mainly the width of the window is detected.

SUMMERY OF THE UTILITY MODEL

The utility model provides an utensil is examined to rzeppa holder lateral part window rough detection has solved the slow problem of window detection speed among the correlation technique.

The technical scheme of the utility model as follows:

utensil is examined in rough inspection of rzeppa holder lateral part window includes:

the lifting seat is arranged on the rack in a lifting manner;

the pressing piece is rotatably arranged on the lifting seat;

the rotating seat is rotationally arranged, a clamping space is formed by the rotating seat and the pressing piece, and the clamping space is used for clamping the ball cage type retainer;

the telescopic piece is arranged on the rack;

go to the no-go gage, set up on the extensible member, the extensible member is flexible back, it is used for detecting the detection window width to go to the no-go gage, it detects the piece including the gauge handle, first detection piece and the second that connect gradually to go to the no-go gage, the gauge handle is connected on the extensible member, first detection piece with the second detects the piece and is spherical, first detection piece diameter is greater than the second detects a diameter.

As a further technical proposal, the method also comprises

A positioning assembly arranged on the frame and including

The guide rod is arranged on the rack in a sliding manner and is positioned on the opposite side of the telescopic piece;

the positioning piece is arranged on the guide rod and positioned on one side close to the go-no go gauge, the positioning piece and the go-no go gauge are respectively positioned on two sides of the rotating seat, the sectional area of the positioning piece is gradually reduced along the direction close to the go-no go gauge, the positioning piece positions the window after the guide rod slides,

and two ends of the elastic piece are respectively connected to the positioning piece and the rack, and the elastic piece provides force for the positioning piece to be close to the window.

As a further technical solution, the rotating seat comprises

The base is rotationally arranged;

and the cross section of the positioning seat is gradually reduced from two ends to the middle, and the diameters of two ends of the positioning seat are smaller than those of two ends of the ball cage type retainer.

As a further technical scheme, the rotating seat is provided with a plurality of rotating seats, and the rotating seat also comprises

The conveying belt is positioned below the pressing piece, and the plurality of rotating seats are arranged on the conveying belt in a rotating mode at intervals.

As a further technical scheme, the method also comprises

The marking piece is arranged at the telescopic end of the telescopic piece and is used for marking the window;

and the distance measuring sensor is arranged on the rack and used for detecting the distance of the marker.

The utility model discloses a theory of operation and beneficial effect do:

in the utility model, in order to facilitate the detection of the lateral window of the rzeppa cage, after the lifting seat descends, the pressing part and the rotating seat clamp the rzeppa cage, then the pressing part is driven by the driving part to rotate, the rzeppa cage and the rotating seat are driven to rotate, when the window rotates to the detection position, the rotation is stopped, the telescopic part drives the go-no go gauge to extend out, the axis of the go-no go gauge is coaxial with that of the window, if the second detection part passes through the window, the first detection part can not pass through the window, and the window is proved to be qualified; if the second detection piece can not pass through the window, the width of the window is proved to be smaller than the standard; if the first detection piece and the second detection piece can both pass through the window, the width of the window is proved to be larger than the standard; when one window is detected, the telescopic piece drives the go-no go gauge to retract, then the driving piece drives the compressing piece to rotate, the next window is made to rotate to the detection position, the telescopic piece extends out, then detection is carried out, and the steps are circulated in sequence, and all windows are detected.

Whether the detection window is in compliance or not is automatically detected by driving the rzeppa type retainer to rotate, then the window which is not in compliance is recorded, and the next processing is carried out, so that the window detection time is shortened, the labor is saved, and the detection efficiency is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

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

fig. 2 is a side view of the present invention;

FIG. 3 is a schematic structural view of the go-no-go gauge of the present invention;

FIG. 4 is a schematic view of the positioning member of the present invention;

fig. 5 is a schematic view of the structure of the conveyer belt of the present invention;

FIG. 6 is a schematic view of a cage structure;

in the figure: 1. lifting seat, 2, frame, 3, compress tightly the piece, 4, rotate the seat, 5, press from both sides tight space, 6, extensible member, 7, logical no-go gage, 8, window, 9, gauge handle, 10, first detection piece, 11, second detection piece, 12, guide bar, 13, setting element, 14, elastic component, 15, base, 16, positioning seat, 17, conveyer belt, 18, mark piece, 19, range finding sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work, are related to the scope of the present invention.

As shown in fig. 1 to 6, the present embodiment proposes

Utensil is examined in rough inspection of rzeppa holder lateral part window includes:

the lifting seat 1 is arranged on the frame 2 in a lifting way;

the pressing piece 3 is rotatably arranged on the lifting seat 1;

the rotating seat 4 is rotatably arranged, the rotating seat 4 and the pressing piece 3 form a clamping space 5, and the clamping space 5 is used for clamping the rzeppa cage;

the telescopic piece 6 is arranged on the frame 2;

go to no-go gage 7, set up on the extensible member 6, extensible member 6 back that stretches out and draws back, go to no-go gage 7 and be used for detecting 8 widths in the detection window, go to no-go gage 7 and detect a 10 and second including the rule handle 9 that connects gradually, first detection piece 10 and second detection piece 11, rule handle 9 is connected on the extensible member 6, first detection piece 10 with second detection piece 11 is spherical, first detection piece 10 diameter is greater than second detection piece 11 diameter.

In the embodiment, in order to facilitate the detection of the window at the side part of the rzeppa cage, after the lifting seat 1 descends, the pressing part 3 and the rotating seat 4 clamp the rzeppa cage, then the pressing part 3 is driven to rotate by the driving part to drive the rzeppa cage and the rotating seat 4 to rotate, when the window 8 rotates to the detection position, the rotation is stopped, the telescopic part 6 drives the go-no go gauge 7 to extend out, the axis of the go-no go gauge 7 is coaxial with the axis of the window 8, if the second detection part 11 passes through the window 8, the first detection part 10 cannot pass through the window 8, and the window 8 is proved to be qualified; if the second detecting member 11 passes through the window 8, the width of the window 8 is proved to be smaller than the standard; if both the first detecting member 10 and the second detecting member 11 can pass through the window 8, the width of the window 8 is proved to be larger than the standard; after the detection of one window 8 is completed, the telescopic piece 6 drives the go-no go gauge 7 to retract, then the driving piece drives the compressing piece 3 to rotate, the next window 8 is made to rotate to the detection position, the telescopic piece 6 extends out, then the detection is performed, and the steps are circulated in sequence to finish the detection of all the windows 8.

Whether the detection window 8 is in compliance or not is automatically detected by driving the rzeppa type retainer to rotate, then the window 8 which is not in compliance is recorded, and the next processing is carried out, so that the detection time of the window 8 is shortened, the labor is saved, and the detection efficiency is improved.

Further, also comprises

A positioning component arranged on the frame 2 and comprising

The guide rod 12 is arranged on the frame 2 in a sliding manner and is positioned on the opposite side of the telescopic piece 6;

the positioning piece 13 is arranged on the guide rod 12 and is positioned at one side close to the go-no go gauge 7, the positioning piece 13 and the go-no go gauge 7 are respectively positioned at two sides of the rotating seat 4, the sectional area of the positioning piece 13 is gradually reduced along the direction close to the go-no go gauge 7, the positioning piece 13 positions the window 8 after the guide rod 12 slides,

and an elastic member 14 having both ends connected to the positioning member 13 and the frame 2, respectively, the elastic member 14 providing a force of the positioning member 13 to approach the window 8.

In this embodiment, in order to achieve automatic positioning, the positioning member 13 is connected to the frame 2 through the elastic member 14, when in use, the elastic member 14 provides a force for the positioning member 13 to approach the go-no-go gauge 7, after the pinch-in member 3 and the rotating base 4 clamp the rzeppa type holder, the rzeppa type holder can abut against the positioning member 13, when the pinch-in member 3 drives the rzeppa type holder to rotate, when the window 8 rotates to the positioning member 13, the positioning member 13 enters the window 8, the rzeppa type holder stops rotating, at this time, the go-no-go gauge 7 corresponds to a window 8 to be detected, both the position between the go-no-go gauge 7 and the positioning member 13 is measured, and after the positioning member 13 positions the window 8, the go-no-go gauge 7 can detect one window 8; after leading to no-go gage 7 and detecting a window 8, the rzeppa holder continues to rotate, the side of locating piece 13 is the arc, when the rzeppa holder rotates, for sliding friction between window 8 and locating piece 13, the rzeppa holder drives locating piece 13 to compress elastic component 14, when the rzeppa holder rotates to the next window 8 position, locating piece 13 gets into window 8, leading to no-go gage 7 at this moment can detect the next window 8, circulate in proper order, accomplish the detection to the rzeppa holder. Through automatic positioning, the window 8 is accurately positioned, the manual positioning time is saved, and the efficiency is improved.

Further, the rotating seat 4 comprises

A base 15, wherein the base 15 is rotatably arranged;

and the positioning seat 16 is arranged on the base 15, the sectional area of the positioning seat 16 is gradually reduced from two ends to the middle, and the diameters of two ends of the positioning seat 16 are smaller than those of two ends of the rzeppa cage.

In the embodiment, a structure of the rotating seat 4 is introduced, specifically, the rotating seat includes a base 15 and a positioning seat 16, the base 15 is rotatably disposed, the positioning seat 16 is disposed on the base 15, and the diameters of two ends of the positioning seat 16 are gradually reduced toward the middle; the two ends of the positioning seat 16 are in clearance fit with the two ends of the ball cage type retainer, the ball cage type retainer is placed on the positioning seat 16, the positioning seat 16 is located in a through hole of the ball cage type retainer, then the pressing part 3 and the base 15 compress the ball cage type retainer, and when the pressing part 3 rotates, the ball cage type retainer and the base 15 rotate simultaneously.

Furthermore, the rotating seat 4 is provided with a plurality of rotating seats and also comprises

And the conveying belt 17 is positioned below the pressing piece 3, and the plurality of rotating seats 4 are arranged on the conveying belt 17 in a rotating mode at intervals.

In this embodiment, in order to improve the detection efficiency, the base 15 is rotatably connected to the conveyor 17, preferably, only a part of the base 15 is connected to the conveyor 17, so as to avoid interference between the base 15 and the conveyor 17 at the position where the direction of the conveyor 17 changes; the conveyer belt 17 is provided with a plurality of rotating seats 4, each rotating seat 4 can be provided with a ball cage type retainer in advance, when the conveyer belt 17 is conveyed to the position of the go-no go gauge 7, the conveying is stopped, the go-no go gauge 7 starts to detect, the conveyer belt 17 continues to convey after the detection is finished, and the ball cage type retainer falls into the collecting box at the position of the conveyer belt 17 where the conveying direction is changed.

Further, also comprises

A marking member 18 arranged at the telescopic end of the telescopic member 6, the marking member 18 being used for marking the window 8;

and the distance measuring sensor 19 is arranged on the frame 2, and the distance measuring sensor 19 detects the distance of the marker 18.

In the embodiment, in order to automatically mark the unqualified window 8, a marker 18 is arranged at the telescopic end of the telescopic part 6, and the distance of the marker 18 is detected by a distance measuring sensor 19; the first detecting element 10 being the furthest distance from the marking element 18 through the window 8, the second detecting element 11 being the closest distance from the marking element 18 through the window 8, the closest and furthest marking elements being used for marking; the marking piece 18 is filled with paint, when the marking is needed, the paint is coated on the rzeppa type retainer, and the coating position is the position of the unqualified window 8; the preferred marker 18 has two paints, with the window 8 having a small width and a large width using different colors of paint to facilitate the detection of whether the window 8 is small or large in width.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. Utensil is examined in rough detection of rzeppa holder lateral part window, its characterized in that includes:

the lifting seat (1) is arranged on the frame (2) in a lifting way;

the pressing piece (3) is rotationally arranged on the lifting seat (1);

the rotating seat (4) is rotatably arranged, the rotating seat (4) and the pressing piece (3) form a clamping space (5), and the clamping space (5) is used for clamping the rzeppa retainer;

the telescopic piece (6) is arranged on the rack (2);

go through no-go gage (7), set up on extensible member (6), extensible member (6) back that stretches out and draws back, go through no-go gage (7) and be used for detecting detection window (8) width, go through no-go gage (7) and detect piece (11) including rule handle (9), first detection piece (10) and the second that connect gradually, rule handle (9) are connected on extensible member (6), first detection piece (10) with second detection piece (11) are spherical, first detection piece (10) diameter is greater than second detection piece (11) diameter.

2. The rzeppa cage side window rough inspection fixture of claim 1, further comprising

A positioning component arranged on the frame (2), the positioning component comprises

The guide rod (12) is arranged on the rack (2) in a sliding mode and is positioned on the opposite side of the telescopic piece (6);

the positioning piece (13) is arranged on the guide rod (12) and is positioned on one side close to the go-no go gauge (7), the positioning piece (13) and the go-no go gauge (7) are respectively positioned on two sides of the rotating seat (4), the sectional area of the positioning piece (13) is gradually reduced along the direction close to the go-no go gauge (7), and the positioning piece (13) positions the window (8) after the guide rod (12) slides;

and two ends of the elastic piece (14) are respectively connected to the positioning piece (13) and the rack (2), and the elastic piece (14) provides a force for the positioning piece (13) to be close to the window (8).

3. Rzeppa cage side window rough inspection gauge according to claim 1, characterized in that said rotating seat (4) comprises

The base (15), the said base (15) sets up rotatably;

the positioning seat (16) is arranged on the base (15), the sectional area of the positioning seat (16) is gradually reduced from two ends to the middle, and the diameters of two ends of the positioning seat (16) are smaller than those of two ends of the ball cage type retainer.

4. The rzeppa cage side window rough inspection tool according to claim 3, wherein the rotary base (4) has a plurality of rotary bases, and further comprises

The conveying belt (17) is located below the pressing piece (3), and the plurality of rotating seats (4) are arranged on the conveying belt (17) in a rotating mode at intervals.

5. The rzeppa cage side window rough inspection fixture of claim 1, further comprising

A marking piece (18) arranged at the telescopic end of the telescopic piece (6), wherein the marking piece (18) is used for marking the window (8);

the distance measuring sensor (19) is arranged on the rack (2), and the distance measuring sensor (19) detects the distance of the marker (18).

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