CN210154509U - Automatic gearshift detection device - Google Patents

Abstract

The utility model discloses an automatic gearshift detection device, its characterized in that: the gear shifting mechanism comprises a base plate, wherein a positioning pin used for detecting the position of an upper mounting hole of the gear shifting mechanism is arranged on the base plate, a handle rod detection tool is supported on the base plate through an upright post, and a detection groove used for detecting the position of the handle rod when the handle rod is in N gear is formed in the handle rod detection tool. The utility model discloses automatic gearshift detection device, simple structure, it is with low costs, detect convenient and fast, can accelerate detection speed, improve work efficiency, reduce equipment input cost and cost of labor, have stronger practicality and better application prospect.

Description

Automatic gearshift detection device

Technical Field

The utility model belongs to the technical field of detection device, more specifically say, relate to an automatic gearshift detection device.

Background

Traditional automatic gear shifting mechanism's detection device structure is complicated, detects mostly the precision measurement instrument of costly, and it uses input cost big, and the cost of labor is all high. The invention discloses a detection device of an automatic gear shifting mechanism, which is provided by the strategy on the background, solves the problems of high investment cost and reduces the manual investment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that prior art exists, provide a simple structure, it is with low costs, detect convenient and fast's automatic gearshift detection device.

In order to realize the purpose, the utility model discloses the technical scheme who takes does: the automatic gear shifting mechanism detection device is characterized in that: the gear shifting mechanism comprises a base plate, wherein a positioning pin used for detecting the position of an upper mounting hole of the gear shifting mechanism is arranged on the base plate, a handle rod detection tool is supported on the base plate through an upright post, and a detection groove used for detecting the position of the handle rod when the handle rod is in N gear is formed in the handle rod detection tool.

In order to make the above technical solution more detailed and concrete, the present invention further provides the following preferable technical solution to obtain satisfactory practical effect:

the handle rod detection tool can move towards the position direction of the handle rod, the handle rod detection tool comprises a detection block body, and a U-shaped detection groove with an opening is formed in one end, close to the handle rod, of the detection block body.

The front end of the detection groove is provided with a rotating block which rotates to close the opening end of the detection groove.

The detection block is characterized in that the stand column is provided with a through hole which can be moved to penetrate out of the detection block body, the upper end of the stand column is further provided with a positioning plate which extends out of the stand column, and the positioning plate is provided with a fastening screw which is screwed and positioned on the detection block body.

The detection device is also provided with a positioning rib detection block for detecting a positioning rib at the upper end of the handle rod.

The positioning rib detection block is provided with a detection hole penetrating through the upper end of the handle rod, and the side wall of the detection hole is provided with a positioning rib groove used for detecting the verticality of the positioning rib.

The positioning rib detection block is provided with a guide rod which extends downwards and penetrates through a guide hole in the detection block body.

The detection device is also provided with a zipper mounting distance detection tool for detecting the zipper mounting distance on the gear shifting mechanism.

One end of the zipper mounting distance gauge is provided with a matching clamp which is clamped on the zipper mounting position, and one end of the zipper mounting distance gauge is hooked on the mounting pin.

The bottom plate is provided with two positioning pins corresponding to the mounting holes in the diagonal positions of the gear shifting mechanism, and the bottom plate is also provided with a clamping mechanism for positioning and clamping the gear shifting mechanism.

Compared with the prior art, the utility model, have following advantage: the utility model discloses automatic gearshift detection device, simple structure, it is with low costs, detect convenient and fast, can accelerate detection speed, improve work efficiency, reduce equipment input cost and cost of labor, have stronger practicality and better application prospect.

Drawings

The contents of the drawings and the reference numerals in the drawings of the present specification will be briefly described as follows:

fig. 1 is the utility model discloses automatic gearshift detection device schematic structure diagram.

Fig. 2 is the utility model discloses automatic gearshift detection device schematic structure diagram.

Fig. 3 is the utility model discloses automatic gearshift's handle bar examines a schematic structure.

Fig. 4 is the utility model discloses the core bar examines a schematic structure.

In the drawings, the reference numbers: 1. the bottom plate, 11, locating pin, 12, clamping mechanism, 2, stand, 3, handle bar examine utensil, 31, detect a body, 32, control the end, 33, detect the groove, 34, rotatory piece, 4, location muscle examine the piece, 5, zip mounting distance examine utensil, 6, the utensil is examined in the aperture, 7, gearshift, 8, handle bar, 81, location muscle, 82, core bar, 9, detect the round pin, 10, core bar examine utensil.

Detailed Description

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings.

The utility model discloses this kind of automatic gearshift detection device, as shown in fig. 1, 2, including bottom plate 1, be equipped with the locating pin 11 that is used for detecting the mounting hole position on the gearshift 7 on the bottom plate 1, the handle bar is examined utensil 3 and is supported on bottom plate 1 through stand 2, and the handle bar is examined and is equipped with the detection groove 33 that is used for detecting the position when the handle bar is in N and keeps off on utensil 3. During detection, the gear shifting mechanism 7 is positioned and installed on the bottom plate 1, and the positioning pin 11 can be used for detecting the position of the installation hole; the position of the detection groove 33 on the handle lever detection tool 3 corresponds to the position of the detection handle lever when the handle lever is in the N gear.

The utility model discloses in, 1 surface of bottom plate is the horizontal plane, puts gearshift 7 on examining the utensil, if have rocked, uses the clearance gauge to fill in the measurement, if the clearance gauge passes through, then mechanism's base plane degree is unqualified, if the clearance gauge does not pass through, then is qualified.

The utility model discloses in, be equipped with on the bottom plate 1 with two locating pins 11 that the mounting hole corresponds on the 7 diagonal positions of gearshift, still be equipped with the clamping mechanism 12 that is used for the tight gearshift of location clamp 7 on the bottom plate 1. As shown in fig. 1 and 2, the positioning pin 11 is integrated with the bottom plate of the checking fixture and used for positioning the position degrees of the mounting holes at the two positions of the casing and the detection casing of the gear shifting mechanism 7, if the two positions can be vertically and easily put in, the two positions are qualified, and if the two positions can not be vertically and easily put in, the two positions are unqualified; the clamping mechanism 12 is then pressed against the housing of the shifting mechanism 7. The bottom plate 1 is also provided with detection holes corresponding to the other two mounting hole positions, the detection pin 9 is plugged into the mounting hole on the shell, the detection pin 9 can enter the detection hole corresponding to the detection tool through the shell, the hole position degree is qualified when the detection pin 9 is inserted into the detection hole, and the hole position degree is unqualified when the detection pin is not inserted into the detection hole. Meanwhile, the aperture size of the detection pin 9 is controlled to be used for detecting the aperture size of the mounting hole, and the detection pin 9 is a through-stop pin which can directly detect whether the aperture is qualified or not.

The utility model discloses in, as shown in fig. 3, utensil 3 is examined to the handle bar can move towards handle bar 8 position direction and adjust, and utensil 3 is examined to the handle bar is including detecting piece body 31, and the one end that detects piece body 31 and be close to handle bar 8 is equipped with U type open-ended detection groove 33, and the other end is established to control end 32, conveniently removes regulation and control. The front end of the detection groove 33 is provided with a rotating block 34 which rotates to close the opening end of the detection groove. As shown in fig. 3, the detection block body 31 is pushed to move to a limit position (i.e. the inner side wall of the detection groove 33 touches the handle bar 8), and the closing rotation block 34 is rotated without interference with the handle bar, so that the closing state indicates that the N-gear position of the product is qualified.

The utility model discloses in, be equipped with the portable through-hole of wearing out and detecting piece body 31 on the stand 2, 2 upper ends of stand still are equipped with the locating plate that stretches out, are equipped with on the locating plate and screw up the fastening screw of location on detecting the piece body, and this kind of structure can guarantee to detect piece body 31 and realize stable removal and quick location, controls the convenience.

The utility model discloses in, as shown in fig. 1, 2, 3, this detection device still is equipped with the location muscle that detects handle bar 8 upper end location muscle 81 and examines piece 4. Two vertically arranged positioning ribs 81 are arranged on two sides of the upper end of the handle rod 8 so as to facilitate the handball to be installed on the upper end of the handle rod. The positioning rib detection block 4 is provided with a detection hole penetrating through the upper end of the handle rod 8, and the side wall of the detection hole is provided with a positioning rib groove for detecting the verticality of the positioning rib 81. The positioning rib detection block 4 is provided with a guide rod which extends downwards to penetrate through a guide hole in the detection block body 31, the guide rod of the positioning rib detection block 4 is inserted into the position of the guide hole in the detection block body 31 shown in the figure, and meanwhile, the positioning rib position at the end part of the handle rod can be put in, so that the verticality of the product positioning rib is qualified.

The utility model discloses in, as shown in fig. 1, 2, this detection device still is equipped with the zip fastener installation distance that is used for detecting gearshift upward zip fastener installation distance and examines utensil 5. One end of the zipper installation distance detection tool 5 is matched and clamped on the zipper installation position, and the other end of the zipper installation distance detection tool is hooked on the installation pin. The checking fixture is clamped in along the mounting surface of the zipper mounting position at one end, if the other end of the checking fixture can be clamped in the mounting pin of the inhaul cable, the product is qualified, and if the product is interfered, the product is unqualified. The aperture gauge 6 has a through-stop function at the thin front end and the thick rear end, and if the through end can be placed in the zipper mounting hole and the stop end cannot pass through, the sample piece is qualified.

The utility model discloses in, as shown in fig. 4, be equipped with the core bar 82 of installation handle bulb in handle bar 8 upper end, the length that 10 is used for detecting core bar 82 is examined to the core bar, and utensil 10 is examined for leading to ending to examine to the core bar, all is equipped with length detection groove at both ends, and the terminal surface that 10 was examined to the core bar is relative with location muscle detection block 4 terminal surface, if will lead to the end and put into and do not interfere, and interfere when ending the end and put into, then explain that a kind is qualified.

The utility model discloses automatic gearshift detection device fixes a position on placing automatic gearshift on the locating pin 11 on the detection device bottom plate 1 to use clamping mechanism to fix and prevent that spare part is not hard up. The handle lever detection tool 3 detects the position degree of the handle lever; the positioning rib detection block 4 is used for detecting the perpendicularity of the positioning rib; the zipper mounting distance detection tool 5 is used for detecting the mounting distance of the N-gear zipper.

The utility model discloses this kind of automatic gearshift detection device's detection method:

the gear shifting mechanism 7 to be detected is placed on the bottom plate 1, the mounting holes are arranged on the two corresponding positioning pins 11, the detection pins 9 are arranged in the other two mounting holes, and the clamping mechanism is pressed down to fix the gear shifting mechanism.

(1) Flatness detection of mechanism base (error range plus-minus 0.7mm)

The mechanism is placed on the base as shown in the figure, if the mechanism shakes, the feeler gauge is used for plugging in the mechanism for measurement, and whether the flatness meets the requirement or not is detected. If the feeler gauge passes through, the flatness of the mechanism base is unqualified, and if the feeler gauge does not pass through, the flatness is qualified.

(2) Mechanism mounting hole position detection (error range plus or minus 0.5mm)

The positioning pin 11 detects the position degree of the mounting holes at the two positions of the shell, if the two holes can be vertically and easily put in, the two holes are qualified, and if the two holes can not be vertically and easily put in, the two holes are unqualified.

The detection pin 9 is plugged into the mounting hole in the shell, the detection pin 9 can enter the detection hole corresponding to the detection tool through the shell, the hole position degree is qualified when the detection pin does not pass through the detection hole, and the hole position degree is unqualified when the detection pin does not pass through the detection hole.

(3) Mounting hole size detection

The aperture size of the detection pin 9 is controlled to be used for detecting the aperture size of the mounting hole, and the detection pin 9 is a through-stop pin which can directly detect whether the aperture is qualified or not.

(4) Position detection of N-gear shift lever (error range, conversion after gauge size rotates 0.5 degree)

The illustrated push detection block body 31 moves to a limit position (i.e., the inner side wall of the detection groove 33 touches the handle bar 8), and the closing rotation block 34 rotates to be free from interference with the handle bar, so that the closing operation can indicate that the position of the N gear of the product is qualified.

(5) Verticality detection of positioning rib at end of handle rod (error range, conversion after gauge size rotates 0.5 degree)

The guide rod of the positioning rib detection block 4 is inserted into the position of the guide hole of the graphic detection block body 31, and meanwhile, the positioning rib position at the end part of the handle rod can be put in, so that the verticality of the product positioning rib is qualified.

(6) N-gear zipper installation distance detection

During detection, the detection tool is clamped in along the installation surface of the zipper installation position at one end, if the other end of the detection tool can be clamped in the installation pin of the inhaul cable, the product is qualified, and if the detection tool is interfered, the product is unqualified.

(7) Zipper mounting hole aperture detection

The aperture gauge 6 has a through-stop function at the thin front end and the thick rear end, and if the through end can be placed in the zipper mounting hole and the stop end cannot pass through, the sample piece is qualified.

(8) Core rod dew length detection

The core bar detection tool 10 is a through-end detection tool, length detection grooves are formed in two ends of the core bar detection tool, the end face of the core bar detection tool 10 is opposite to the end face of the positioning rib detection block 4, and if the through end is placed without interference and the end is placed with interference, a sample piece is qualified.

The utility model discloses automatic gearshift detection device, simple structure, it is with low costs, detect convenient and fast, can accelerate detection speed, improve work efficiency, reduce equipment input cost and cost of labor, have stronger practicality and better application prospect.

The present invention has been described above with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, and various insubstantial improvements or direct applications to other applications can be achieved by using the method and technical solution of the present invention, which all fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic gearshift detection device which characterized in that: the gear shifting mechanism comprises a base plate, wherein a positioning pin used for detecting the position of an upper mounting hole of the gear shifting mechanism is arranged on the base plate, a handle rod detection tool is supported on the base plate through an upright post, and a detection groove used for detecting the position of the handle rod when the handle rod is in N gear is formed in the handle rod detection tool.

2. The automatic shifting mechanism detecting device according to claim 1, wherein: the handle rod detection tool can move towards the position direction of the handle rod, the handle rod detection tool comprises a detection block body, and a U-shaped detection groove with an opening is formed in one end, close to the handle rod, of the detection block body.

3. The automatic shifting mechanism detecting device according to claim 2, wherein: the front end of the detection groove is provided with a rotating block which rotates to close the opening end of the detection groove.

4. The automatic shifting mechanism detecting device according to claim 3, wherein: the detection block is characterized in that the stand column is provided with a through hole which can be moved to penetrate out of the detection block body, the upper end of the stand column is further provided with a positioning plate which extends out of the stand column, and the positioning plate is provided with a fastening screw which is screwed and positioned on the detection block body.

5. The automatic shifting mechanism detecting device according to claim 2, wherein: the detection device is also provided with a positioning rib detection block for detecting a positioning rib at the upper end of the handle rod.

6. The automatic shifting mechanism detecting device according to claim 5, wherein: the positioning rib detection block is provided with a detection hole penetrating through the upper end of the handle rod, and the side wall of the detection hole is provided with a positioning rib groove used for detecting the verticality of the positioning rib.

7. The automatic shifting mechanism detecting device according to claim 6, wherein: the positioning rib detection block is provided with a guide rod which extends downwards and penetrates through a guide hole in the detection block body.

8. The automatic shifting mechanism detecting device according to claim 1, wherein: the detection device is also provided with a zipper mounting distance detection tool for detecting the zipper mounting distance on the gear shifting mechanism.

9. The automatic shifting mechanism detecting device according to claim 8, wherein: one end of the zipper installation distance gauge is matched and clamped on the zipper installation position, and the other end of the zipper installation distance gauge is hooked on the installation pin.

10. The automatic shifting mechanism detecting device according to claim 1, wherein: the bottom plate is provided with two positioning pins corresponding to the mounting holes in the diagonal positions of the gear shifting mechanism, and the bottom plate is also provided with a clamping mechanism for positioning and clamping the gear shifting mechanism.

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