CN210952744U - Automatic detection device for clutch master cylinder sensor - Google Patents

Abstract

The utility model discloses a clutch master cylinder sensor automatic checkout device, include: the push rod positioning mechanism comprises a push rod transverse moving sliding plate assembly, a push rod fixing seat and a push rod pressing cylinder, wherein the push rod fixing seat and the push rod pressing cylinder are connected with the push rod transverse moving sliding plate assembly and can realize transverse movement; the cylinder body positioning mechanism comprises a cylinder body transverse sliding plate assembly, a cylinder body fixing seat and a cylinder body pressing cylinder, wherein the cylinder body fixing seat and the cylinder body pressing cylinder are connected with the cylinder body transverse sliding plate assembly and can move transversely; the sensor detection mechanism comprises a detection probe connected with the clutch master cylinder sensor and a detector connected with the detection probe; and the marking mechanism is used for marking whether the detected clutch master cylinder sensor is qualified or not. The utility model discloses can simulate out the operating condition of clutch master cylinder assembly to connect clutch master cylinder sensor through sensor detection mechanism, gather clutch master cylinder sensor parameter and detect, realize the automated inspection of clutch master cylinder sensor.

Description

Automatic detection device for clutch master cylinder sensor

Technical Field

The utility model relates to an automobile parts detects technical field, concretely relates to clutch master cylinder sensor detection technology.

Background

The main cylinder of the clutch, also called as the master cylinder of the clutch, is the main type of the hydraulic operating system of the clutch, and hydraulic oil (brake oil) enters the master cylinder and pushes the slave cylinder of the clutch under the action of the pedal of the clutch so as to push the clutch to work.

The clutch master cylinder is connected with the clutch pedal and is connected with the clutch booster through an oil pipe. The function is to collect pedal travel information and enable the clutch to be separated through the function of the booster. When a driver steps on a clutch pedal, the push rod pushes the master cylinder piston to increase the oil pressure, the oil enters the branch pump through the hose, the branch pump pull rod is forced to push the release fork, and the release bearing is pushed forwards; when the driver releases the clutch pedal, the hydraulic pressure is released, the release fork gradually returns to the original position under the action of the return spring, and the clutch is in an engaged state.

The sensor is all installed to present clutch master cylinder, refers to the chinese utility model patent that patent number is 201120420467.3, discloses the clutch master cylinder assembly that possesses survey footboard position function, realizes surveying footboard position function through the sensor, installs the back on clutch master cylinder at the sensor, needs detect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic detection device for clutch master cylinder sensor is provided realizes clutch master cylinder sensor automatic detection.

In order to solve the technical problem, the utility model adopts the following technical scheme: clutch master cylinder sensor automatic checkout device includes:

the push rod positioning mechanism comprises a push rod transverse moving sliding plate assembly, a push rod fixing seat and a push rod pressing air cylinder, wherein the push rod fixing seat and the push rod pressing air cylinder are connected with the push rod transverse moving sliding plate assembly and can realize transverse movement;

the cylinder body positioning mechanism comprises a cylinder body transverse sliding plate assembly, a cylinder body fixing seat and a cylinder body pressing cylinder, wherein the cylinder body fixing seat and the cylinder body pressing cylinder are connected with the cylinder body transverse sliding plate assembly and can realize transverse movement;

the sensor detection mechanism comprises a detection probe connected with the clutch master cylinder sensor and a detector connected with the detection probe;

and the marking mechanism is used for marking whether the detected clutch master cylinder sensor is qualified or not.

Optionally, the push rod sliding plate transverse moving assembly comprises a push rod sliding plate and a push rod transverse moving electric cylinder, the push rod sliding plate is in sliding fit with the push rod linear guide rail, the push rod linear guide rail is fixed on the working table, the push rod sliding plate is connected with a telescopic sliding block of the push rod transverse moving electric cylinder, and the push rod pressing air cylinder and the push rod fixing seat are fixed on the push rod sliding plate.

Optionally, the cylinder body sliding plate transverse moving assembly comprises a cylinder body sliding plate and a cylinder body transverse moving electric cylinder, the cylinder body sliding plate is in sliding fit with the cylinder body linear guide rail, the cylinder body linear guide rail is fixed on the working table surface, the cylinder body sliding plate is connected with a telescopic sliding block of the cylinder body transverse moving electric cylinder, and the cylinder body pressing air cylinder and the cylinder body fixing seat are fixed on the cylinder body sliding plate.

Optionally, a force sensor fixing seat is fixed on the cylinder body sliding plate, a force sensor is installed on the force sensor fixing seat, and the force sensor is connected with a telescopic sliding block of the cylinder body transverse moving electric cylinder.

Optionally, the automatic detection device further comprises a cylinder body downward pressing mechanism for pressing the cylinder body downward.

Optionally, the cylinder body lower pressing mechanism comprises an upper telescopic cylinder, a vertical plate, an upper sliding plate, a lower sliding plate, a connecting seat and a pressing head, the pressing head is movably connected to the connecting seat and can float up and down through a spring, the connecting seat is connected with the upper sliding plate and the lower sliding plate, the upper sliding plate and the lower sliding plate are connected to the vertical plate through an upper linear guide rail and a lower linear guide rail in a sliding mode, the vertical plate is fixed to the working table top, the upper telescopic cylinder and the lower telescopic cylinder are fixed.

Optionally, the sensor detection mechanism further comprises a sensor connecting plate, the detection probe is connected with the sensor connecting plate, and the sensor connecting plate is connected with the connecting seat.

Optionally, the marking mechanism comprises a marking cylinder, a paint pen connecting plate and a paint pen, the paint pen is fixed on the paint pen connecting plate, and the paint pen connecting plate is connected with a telescopic rod of the marking cylinder.

Optionally, the marking cylinder is mounted on the cylinder body sliding plate.

The utility model adopts the above technical scheme, following beneficial effect has:

the push rod is positioned and pressed through the push rod positioning mechanism, the cylinder body is positioned and pressed through the cylinder body positioning mechanism, the push rod can move transversely through the push rod transverse sliding plate component, the cylinder body can move transversely through the cylinder body transverse sliding plate component, therefore, the working state of a clutch main cylinder assembly can be simulated, the sensor detection mechanism is connected with a clutch main cylinder sensor, parameters of the clutch main cylinder sensor are collected for detection, and automatic detection of the clutch main cylinder sensor is achieved.

The specific technical solution and the advantages of the present invention will be described in detail in the following detailed description with reference to the accompanying drawings.

Drawings

The invention will be further described with reference to the accompanying drawings and specific embodiments:

fig. 1 is a schematic perspective view of the present invention;

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

in the figure: 1-push rod positioning mechanism, 1.1-push rod transverse moving electric cylinder, 1.2-push rod sliding plate, 1.3-push rod pressing air cylinder, 1.4-push rod fixing seat, 2-cylinder positioning mechanism, 2.1-cylinder sliding plate, 2.2-cylinder fixing seat, 2.3-force sensor fixing seat, 2.4-force sensor, 2.5-cylinder transverse moving electric cylinder, 2.6-cylinder pressing air cylinder, 3-cylinder lower pressing mechanism, 3.1-upper and lower telescopic air cylinders, 3.2-vertical plate, 3.3-upper and lower sliding plates, 3.4-connecting seat, 3.5-pressure head, 4-sensor detecting mechanism, 4.1-sensor connecting plate, 4.2-detecting probe, 5-marking mechanism, 5.1-marking air cylinder, 5.2-paint pen connecting plate, 5.3-paint pen.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in 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. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It is to be understood that the features of the following examples and embodiments may be combined with each other without conflict.

It is to be understood that the following terms "upper," "lower," "lateral," and the like, refer to orientations or positional relationships only based on the orientations or positional relationships shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices/elements must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be internal to both elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1 and 2, the automatic clutch master cylinder sensor detecting device includes:

the push rod positioning mechanism 1 comprises a push rod transverse moving sliding plate assembly, a push rod fixing seat 1.4 and a push rod pressing cylinder 1.3, wherein the push rod fixing seat 1.4 and the push rod pressing cylinder 1.3 are connected with the push rod transverse moving sliding plate assembly;

the cylinder body positioning mechanism 2 comprises a cylinder body transverse sliding plate assembly, a cylinder body fixing seat 2.2 connected with the cylinder body transverse sliding plate assembly and a cylinder body pressing cylinder 2.6, wherein the cylinder body is placed on the cylinder body fixing seat 2.2 for positioning, and the cylinder body is transversely pressed through the cylinder body pressing cylinder 2.6;

the sensor detection mechanism 4 comprises a detection probe 4.2 connected with the clutch master cylinder sensor and a detector connected with the detection probe;

and the marking mechanism 5 is used for marking whether the detected clutch master cylinder sensor is qualified or not.

In order to realize the positioning of the push rod and the cylinder body, the upper part of the push rod fixing seat 1.4 is provided with a positioning pin, and the positioning pin is inserted into a fork hole on the push rod fork. The upper portion of cylinder body fixing base 2.2 is equipped with the constant head tank, with the cooperation of cylinder body appearance profile, and one side that push rod fixing base 1.4 was kept away from to cylinder body fixing base 2.2 is equipped with the locating surface in addition, and the locating surface supports with the outside lateral protrusion of cylinder body formation after cylinder body compresses tightly cylinder 2.6 and compresses tightly the cylinder body and leans on.

The push rod sliding plate transverse moving assembly comprises a push rod sliding plate 1.2 and a push rod transverse moving electric cylinder 1.1, the push rod sliding plate is in sliding fit with a push rod linear guide rail, the push rod linear guide rail is fixed on a working table surface, the push rod sliding plate is connected with a telescopic sliding block of the push rod transverse moving electric cylinder, and the push rod pressing air cylinder 1.3 and a push rod fixing seat 1.4 are fixed on the push rod sliding plate.

The cylinder body sliding plate transverse moving assembly comprises a cylinder body sliding plate 2.1 and a cylinder body transverse moving electric cylinder 2.5, the cylinder body sliding plate is in sliding fit with a cylinder body linear guide rail, the cylinder body linear guide rail is fixed on a working table surface, the cylinder body sliding plate is connected with a telescopic sliding block of the cylinder body transverse moving electric cylinder, and the cylinder body pressing air cylinder 2.6 and a cylinder body fixing seat 2.2 are fixed on the cylinder body sliding plate.

The clutch main cylinder sensor detects the movement of the push rod, the stroke of the telescopic sliding block of the cylinder body transverse electric cylinder needs to correspond to the stroke of the push rod, and therefore the force sensor 2.4 is arranged for detection. A force sensor fixing seat 2.3 is fixed on the cylinder body sliding plate, a force sensor 2.4 is installed on the force sensor fixing seat, the force sensor 2.4 is connected with a telescopic sliding block of the cylinder body transverse moving electric cylinder, force in the moving process can be detected, if the stroke of the push rod reaches a corresponding limit position, the force can be changed, and the cylinder body transverse moving electric cylinder stops.

In order to ensure the reliable compression of the cylinder body, the automatic detection device of the clutch main cylinder sensor further comprises a cylinder body lower compression mechanism 3 for compressing the cylinder body downwards. The lower pressing mechanism 3 of the cylinder body comprises an upper telescopic cylinder 3.1, a vertical plate 3.2, an upper sliding plate 3.3, a connecting seat 3.4 and a pressing head 3.5, wherein the pressing head is movably connected on the connecting seat and can float up and down through a spring, the connecting seat is connected with the upper sliding plate and the lower sliding plate, the upper sliding plate and the lower sliding plate are connected on the vertical plate in a sliding way through an upper linear guide rail and a lower linear guide rail, the vertical plate is fixed on a working table surface, the upper telescopic cylinder and the lower telescopic cylinder are fixed on,

since the detection probe 4.2 also needs to move up and down to connect or disconnect with the clutch master cylinder sensor. Here, sensor detection mechanism still includes sensor connecting plate 4.1, test probe 4.2 is connected with the sensor connecting plate, sensor connecting plate 4.1 is connected with connecting seat 3.4, can be along with pressure head 3.5 up-and-down motion under the drive of upper and lower telescopic cylinder 3.1, compresses tightly the cylinder body at the pressure head after, and test probe is connected with clutch master cylinder sensor simultaneously, and after the cylinder body was upwards loosened to the pressure head, test probe also separated with clutch master cylinder sensor simultaneously.

Specifically, marking mechanism 5 includes marking cylinder 5.1, paint pen connecting plate 5.2, paint pen 5.3, and paint pen fixes on paint pen connecting plate, and paint pen connecting plate is connected with marking cylinder's telescopic link.

Furthermore, the marking cylinder 5.1 is installed on the cylinder body sliding plate 2.1, and after the detection of the clutch main cylinder sensor is completed and qualified, the marking cylinder controls the paint pen to extend out to mark qualified marks on the cylinder body.

The utility model discloses a theory of operation:

manually placing the clutch main cylinder assembly on the cylinder body fixing seat 2.2, placing the push rod on the push rod fixing seat 1.4 for positioning, and starting the equipment;

the push rod pressing cylinder 1.3 moves to press the push rod, and the cylinder body pressing cylinder 2.6 moves to press the cylinder body;

the upper telescopic cylinder 3.1 and the lower telescopic cylinder move downwards to realize the compaction of the cylinder body, and meanwhile, the detection probe 4.2 is connected with a clutch master cylinder sensor;

the cylinder body transversely moves the electric cylinder 2.5 transversely to return to the testing position, and the testing position is kept unchanged;

the transverse movement of the push rod is realized by the transverse movement of the electric cylinder 1.1, so that the push rod returns to the test original position;

the transverse movement of the push rod is performed by an electric cylinder 1.1, the outer end of the push rod is straightened, a clutch master cylinder sensor is tested, data transmission is performed, and a curve is output;

after the equipment detection curve is qualified, the marking cylinder 5.1 drives the paint pen 5.3 on the paint pen connecting plate 5.2 to mark;

the push rod pressing cylinder 1.3 returns, the cylinder body pressing cylinder 2.6 returns, and the upper telescopic cylinder 3.1 returns;

and taking out the product to finish the test.

Different sensors are through changing push rod fixing base 1.4, cylinder body fixing base 2.2, pressure head 3.5, and collinear test can be realized to sensor detection mechanism 4.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (9)

1. Clutch master cylinder sensor automatic checkout device, its characterized in that includes:

the push rod positioning mechanism comprises a push rod transverse moving sliding plate assembly, a push rod fixing seat and a push rod pressing air cylinder, wherein the push rod fixing seat and the push rod pressing air cylinder are connected with the push rod transverse moving sliding plate assembly and can realize transverse movement;

the cylinder body positioning mechanism comprises a cylinder body transverse sliding plate assembly, a cylinder body fixing seat and a cylinder body pressing cylinder, wherein the cylinder body fixing seat and the cylinder body pressing cylinder are connected with the cylinder body transverse sliding plate assembly and can realize transverse movement;

the sensor detection mechanism comprises a detection probe connected with the clutch master cylinder sensor and a detector connected with the detection probe;

and the marking mechanism is used for marking whether the detected clutch master cylinder sensor is qualified or not.

2. The automatic clutch master cylinder sensor detecting device according to claim 1, characterized in that: the push rod transverse moving sliding plate assembly comprises a push rod sliding plate and a push rod transverse moving electric cylinder, the push rod sliding plate is in sliding fit with the push rod linear guide rail, the push rod linear guide rail is fixed on the working table surface, the push rod sliding plate is connected with a telescopic sliding block of the push rod transverse moving electric cylinder, and the push rod pressing air cylinder and the push rod fixing seat are fixed on the push rod sliding plate.

3. The automatic clutch master cylinder sensor detecting device according to claim 1, characterized in that: the cylinder body transverse moving sliding plate assembly comprises a cylinder body sliding plate and a cylinder body transverse moving electric cylinder, the cylinder body sliding plate is in sliding fit with a cylinder body linear guide rail, the cylinder body linear guide rail is fixed on a working table surface, the cylinder body sliding plate is connected with a telescopic sliding block of the cylinder body transverse moving electric cylinder, and the cylinder body pressing air cylinder and a cylinder body fixing seat are fixed on the cylinder body sliding plate.

4. The automatic clutch master cylinder sensor detecting device according to claim 3, characterized in that: a force sensor fixing seat is fixed on the cylinder body sliding plate, a force sensor is installed on the force sensor fixing seat, and the force sensor is connected with a telescopic sliding block of the cylinder body transverse moving electric cylinder.

5. The automatic clutch master cylinder sensor detecting device according to claim 1, characterized in that: the automatic detection device further comprises a cylinder body lower pressing mechanism used for pressing the cylinder body downwards.

6. The automatic clutch master cylinder sensor detecting device according to claim 5, characterized in that: the cylinder body lower pressing mechanism comprises an upper telescopic cylinder, a vertical plate, an upper sliding plate, a lower sliding plate, a connecting seat and a pressing head, wherein the pressing head is movably connected to the connecting seat and can float up and down through a spring, the connecting seat is connected with the upper sliding plate and the lower sliding plate, the upper sliding plate and the lower sliding plate are connected to the vertical plate in a sliding mode through an upper linear guide rail and a lower linear guide rail, the vertical plate is fixed to a working table surface, the upper telescopic cylinder and the lower telescopic cylinder are.

7. The automatic clutch master cylinder sensor detecting device according to claim 6, characterized in that: the sensor detection mechanism further comprises a sensor connecting plate, the detection probe is connected with the sensor connecting plate, and the sensor connecting plate is connected with the connecting seat.

8. The automatic clutch master cylinder sensor detecting device according to claim 3, characterized in that: the marking mechanism comprises a marking cylinder, a paint pen connecting plate and a paint pen, the paint pen is fixed on the paint pen connecting plate, and the paint pen connecting plate is connected with a telescopic rod of the marking cylinder.

9. The automatic clutch master cylinder sensor detecting device according to claim 8, characterized in that: the marking cylinder is arranged on the cylinder body sliding plate.

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