CN210587988U - Oil pipe installation and test device for clutch master cylinder - Google Patents

Abstract

The utility model discloses a clutch master cylinder oil pipe installation and testing arrangement, including installation riser and can be on the installation riser lateral sliding's cylinder body sideslip sliding block set spare, oil pipe sideslip sliding block set spare, cylinder body sideslip sliding block set spare is connected with the master cylinder that is used for compressing tightly the clutch master cylinder and compresses tightly the subassembly, oil pipe sideslip sliding block set spare is connected with the oil pipe that is used for compressing tightly oil pipe and compresses tightly the subassembly and is used for shutoff oil pipe mouth and insert the distribution and carry out the oil pipe mouth shutoff subassembly of leakproofness test, and the master cylinder compresses tightly the subassembly and follows cylinder body sideslip sliding block set spare and remove to make oil pipe assemble clutch master cylinder hydraulic fluid port together to the oil pipe direction, still includes the force sensor of test pulling force when the master cylinder compresses tightly the. The utility model discloses can accomplish oil pipe installation, oil pipe and draw and take off test, oil pipe leakproofness test, the process concentration degree is high, and the test is complete, improves oil pipe installation and efficiency of software testing.

Description

Oil pipe installation and test device for clutch master cylinder

Technical Field

The utility model relates to a separation and reunion technique of assembling, concretely relates to clutch master cylinder oil pipe's installation and test technique.

Background

At present, an oil pipe of a clutch master cylinder is generally installed manually, and an oil pipe pull-off test and an oil pipe tightness test are independently carried out, so that the oil pipe installation and test efficiency is low, and the quality is difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an oil pipe installation and testing arrangement of clutch master cylinder is just provided, oil pipe installation and efficiency of software testing are improved.

In order to solve the technical problem, the utility model adopts the following technical scheme: the oil pipe installation and test device for the clutch master cylinder comprises an installation vertical plate, a cylinder body transverse sliding block assembly and an oil pipe transverse sliding block assembly, wherein the cylinder body transverse sliding block assembly and the oil pipe transverse sliding block assembly can transversely slide on the installation vertical plate, the cylinder body transverse sliding block assembly is connected with a master cylinder pressing assembly used for pressing the clutch master cylinder, the oil pipe transverse sliding block assembly is connected with an oil pipe pressing assembly used for pressing the oil pipe and an oil pipe opening plugging assembly used for plugging an oil pipe opening and connecting air distribution for tightness test, the master cylinder pressing assembly moves towards the oil pipe direction along with the cylinder body transverse sliding block assembly to enable the oil pipe to be assembled on the oil port of the clutch master cylinder, and the device further comprises a force sensor used for testing tension force.

Optionally, the master cylinder compressing assembly and the oil pipe compressing assembly both comprise a lower fixed block and an upper compressing block which can move up and down relative to the lower fixed block.

Optionally, the lower fixing block of the master cylinder compressing assembly is fixed on the cylinder body transverse sliding block assembly through a bolt, and the upper compressing block of the master cylinder compressing assembly is installed on the cylinder body transverse sliding block assembly through a linear guide rail and connected with the master cylinder compressing cylinder.

Optionally, the lower fixing block of the oil pipe pressing assembly is fixed on the oil pipe transverse sliding block assembly through a bolt, and the upper pressing block of the oil pipe pressing assembly is installed on the oil pipe transverse sliding block assembly through a linear guide rail and is connected with the oil pipe pressing cylinder.

Optionally, an oil pipe pressing assembly is installed between the cylinder body transverse sliding block assembly and the oil pipe transverse sliding block assembly on the installation vertical plate, a lower fixing block of the oil pipe pressing assembly is fixed on the installation vertical plate through a bolt, an upper pressing block of the oil pipe pressing assembly is connected with an oil pipe pressing cylinder, and an upper pressing block of the oil pipe pressing assembly is installed on the installation vertical plate through a linear guide rail.

Optionally, the oil pipe opening plugging assembly comprises a plugging block and an oil pipe plugging cylinder for driving the plugging block to move, and the plugging block is connected with a sealing test connector.

Optionally, the cylinder body transverse sliding block assembly is mounted on the mounting vertical plate through a linear guide rail, the cylinder body transverse sliding block assembly is connected with the electric cylinder, and the force sensor is mounted between the cylinder body transverse sliding block assembly and the electric cylinder.

Optionally, the oil pipe lateral sliding block assembly is mounted on the mounting vertical plate through a linear guide rail, and the oil pipe lateral sliding block assembly is connected with the screw nut mechanism.

Optionally, the device further comprises a filter screen in-place detection sensor for detecting whether the filter screen is installed on the oil port of the clutch main cylinder.

Optionally, the device further comprises a tubing length detection sensor for detecting the length of the tubing.

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

1. the utility model discloses can accomplish oil pipe installation, oil pipe and draw and take off test, oil pipe leakproofness test, the process concentration degree is high, and the test is complete, improves oil pipe installation and efficiency of software testing.

2. The clutch master cylinder/oil pipe is pressed by the master cylinder pressing assembly and the oil pipe pressing assembly through the lower fixing block and the upper pressing block which can move up and down relative to the lower fixing block, and firm pressing and looseness prevention are guaranteed.

3. The lower pressing blocks of the main cylinder pressing assembly and the oil pipe pressing assembly slide along the linear guide rail and are driven by the pressing cylinder, so that accurate pressing positions and enough pressing force can be guaranteed.

4. Because oil pipe is longer and have the flexibility, consequently set up two oil pipe and compress tightly the subassembly, fixed oil pipe both ends respectively, aversion when avoiding oil pipe assembly guarantees that oil pipe installs accurately.

5. The cylinder body transverse sliding block assembly is driven by an electric cylinder, so that accurate position control and accurate thrust control are realized.

6. The oil pipe transverse sliding block assembly is connected with the lead screw nut mechanism, and the lead screw nut mechanism can drive the oil pipe transverse sliding block assembly to transversely slide according to the length of the oil pipe, so that the assembly of the oil pipe under straight assembly and the tightness test are guaranteed.

7. Only if the filter screen is detected by the filter screen on-site detection sensor, and the oil pipe length is detected by the oil pipe length detection sensor to be correct, the oil pipe is automatically assembled, and the filter screen is prevented from being neglected to be assembled and the oil pipe is prevented from being unqualified in length.

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-mounting a vertical plate, 11-a cylinder body transverse sliding block assembly, 12-an oil pipe transverse sliding block assembly, 13-an electric cylinder, 14-a force sensor, 15-a filter screen on-site detection sensor and 16-an oil pipe length detection sensor; 2-oil pipe port plugging component, 21-plugging block, 22-plugging cylinder, 23-sealing test joint; 3-a master cylinder pressing component, 30-a clutch master cylinder, 31-a master cylinder pressing lower fixing block, 32-a master cylinder pressing upper pressing block and 33-a master cylinder pressing cylinder; 4-oil pipe pressing component, 40-oil pipe, 41-oil pipe pressing lower fixing block, 42-oil pipe pressing upper pressing block and 43-oil pipe pressing cylinder.

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 will be appreciated by those skilled in the art that features from the examples and embodiments described below may be combined with each other without conflict.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Terms indicating orientation or positional relationship such as "upper", "lower", "front", "rear", "left", "right", "lateral", "longitudinal", "vertical", and the like, described below, are based only on the orientation or positional relationship shown in the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the device/element referred to 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.

As shown in fig. 1 and 2, the oil pipe installation and test device for the clutch master cylinder comprises an installation vertical plate 1, a cylinder body transverse sliding block assembly 11 and an oil pipe transverse sliding block assembly 12 which can transversely slide on the installation vertical plate 1, wherein the cylinder body transverse sliding block assembly 11 is connected with a master cylinder pressing assembly 3 for pressing a clutch master cylinder 30, the oil pipe transverse sliding block assembly 12 is connected with an oil pipe pressing assembly 4 for pressing an oil pipe 40 and an oil pipe opening plugging assembly 2 for plugging an oil pipe opening and accessing air distribution for tightness test, the master cylinder pressing assembly 3 moves towards the oil pipe 40 along with the cylinder body transverse sliding block assembly 11 to assemble the oil pipe to the oil port of the clutch master cylinder, and the device further comprises a force sensor 14 for testing pulling force when the master cylinder pressing assembly 3 moves towards the direction separated from the oil pipe 40 along with the cylinder body transverse sliding block assembly. Therefore, the oil pipe installation, the oil pipe pull-off test and the oil pipe sealing performance test can be completed, the process concentration degree is high, the test is complete, and the oil pipe installation and test efficiency is improved.

The cylinder body transverse sliding block assembly 11 is mounted on the mounting vertical plate 1 through a linear guide rail, the cylinder body transverse sliding block assembly 11 is connected with the electric cylinder 13, and the force sensor 14 is mounted between the cylinder body transverse sliding block assembly 11 and the electric cylinder 13. Here, the cylinder block traverse slide block assembly 11 is installed in front of the mounting upright plate, and the electric cylinder 13 is installed behind the mounting upright plate to save the installation space. Correspondingly, a guide transverse groove is formed in the installation vertical plate, the cylinder body transverse sliding block assembly 11 is provided with a guide transverse block, and the guide transverse block penetrates through the guide transverse groove to be connected with the electric cylinder and can transversely slide along the guide transverse groove. Of course, it will be understood by those skilled in the art that the electric cylinder may be replaced by a linear actuator such as an air cylinder.

In order to realize the transverse movement of the oil pipe transverse moving slide block assembly 12, the oil pipe transverse moving slide block assembly 12 is installed on the installation vertical plate 1 through a linear guide rail, and the oil pipe transverse moving slide block assembly 12 is connected with a screw nut mechanism. The screw nut mechanism can drive the oil pipe transverse sliding block assembly 12 to transversely slide according to the length of the oil pipe, so that the oil pipe is assembled under straight assembly and subjected to tightness test, and adjustment according to the length of the oil pipe is realized. Of course, it will be understood by those skilled in the art that the lead screw and nut mechanism may be replaced by a linear actuator such as an electric cylinder or an air cylinder.

In a preferred embodiment, the master cylinder compression assembly 3 and the oil pipe compression assembly 4 each include a lower fixed block and an upper compression block that is movable up and down relative to the lower fixed block.

Specifically, the master cylinder pressing assembly 3 includes a master cylinder pressing lower fixing block 31 and a master cylinder pressing upper pressing block 32 which can move up and down relative to the master cylinder pressing lower fixing block 31. The main cylinder pressing lower fixing block 31 is fixed on the cylinder body transverse sliding block assembly 11 through a bolt, and the main cylinder pressing upper pressing block 32 is installed on the cylinder body transverse sliding block assembly 11 through a linear guide rail and connected with the main cylinder pressing cylinder 33.

The oil pipe pressing assembly 4 comprises an oil pipe pressing lower fixing block 41 and an oil pipe pressing upper pressing block 42 which can move up and down relative to the oil pipe pressing lower fixing block 41. The oil pipe pressing lower fixing block 41 is fixed on the oil pipe transverse sliding block assembly 12 through a bolt, and the oil pipe pressing upper pressing block 42 is installed on the oil pipe transverse sliding block assembly 12 through a linear guide rail and is connected with an oil pipe pressing cylinder 43.

Because oil pipe 40 is long and flexible, it is necessary to fix both ends to ensure that oil pipe 40 is accurately installed, so a second oil pipe hold-down assembly 4 is provided. Specifically, the oil pipe pressing assembly 4 is installed between the cylinder body transverse sliding block assembly 11 and the oil pipe transverse sliding block assembly 12 on the installation vertical plate 1, an oil pipe pressing lower fixing block 41 of the oil pipe pressing assembly 4 is fixed on the installation vertical plate 1 through a bolt, an oil pipe pressing upper pressing block 42 of the oil pipe pressing assembly 4 is connected with an oil pipe pressing cylinder 43, and an oil pipe pressing upper pressing block 42 of the oil pipe pressing assembly 4 is installed on the installation vertical plate 1 through a linear guide rail.

The lower pressing blocks of the main cylinder pressing assembly and the oil pipe pressing assembly slide along the linear guide rail and are driven by the pressing cylinder, so that the accurate pressing position and enough pressing force can be ensured.

The oil pipe port plugging component 2 needs to plug an oil pipe port and perform a sealing test. The oil pipe opening plugging assembly 2 comprises a plugging block 21 and an oil pipe plugging cylinder 22 for driving the plugging block 21 to move, and the plugging block 21 is connected with a sealing test connector 23 for connecting a test air pipe. The oil pipe plugging cylinder 22 moves to drive the plugging block 21 to plug an oil pipe opening, and meanwhile, the sealing test connector 23 is connected with an air pipe to distribute air, so that the sealing test is completed.

At present, before the assembly of an oil pipe, whether a filter screen on an oil port of a main cylinder is installed and whether the length of the oil pipe is qualified need to be manually inspected, and the method is not accurate enough. To address this problem, the device further includes a screen in-place detection sensor 15 that detects whether the screen is mounted on the oil port of the clutch main cylinder. The apparatus also includes a tubing length detection sensor 16 that detects the length of the tubing. Only when the filter screen is detected by the filter screen on-site detection sensor 15 and the oil pipe length is detected by the oil pipe length detection sensor 16 to be correct, the oil pipe is automatically assembled, and filter screen neglected loading and unqualified oil pipe length are avoided. It will be appreciated by those skilled in the art that the screen in-place detection sensor 15 and the tubing length detection sensor 16 may be proximity switches or other similar sensors.

In the present embodiment, the mounting vertical plate 1 is vertically disposed, and it can be understood by those skilled in the art that the mounting vertical plate 1 is not limited to be vertically mounted, and can be obliquely mounted or even horizontally mounted.

The utility model discloses operation flow:

1. manually placing the clutch master cylinder 30 on the master cylinder compression assembly 3, placing the oil pipe 40 on the oil pipe compression assembly 4, and starting the equipment;

2. the filter screen presence detection sensor 15 detects the filter screen presence, the oil pipe length detection sensor 16 detects that the oil pipe length is correct, the equipment automatically carries out oil pipe assembly, the oil pipe pressing cylinder 43 descends, the main cylinder pressing cylinder 33 descends, so that the oil pipe pressing assembly 4 and the main cylinder pressing assembly 3 jointly act to press the clutch main cylinder 30 and the oil pipe 40, the electric cylinder 13 drives the cylinder body transverse sliding block assembly 11 to enable the main cylinder pressing assembly 3 to move to the right for oil pipe assembly, after the oil pipe assembly is completed, the electric cylinder 13 drives the cylinder body transverse sliding block assembly 11 to enable the main cylinder pressing assembly 3 to move to the left for small displacement, the tensile force is tested through the force sensor 14.

3. And after the pull-off force test is qualified, the oil pipe tightness test is automatically carried out, and the plugging air cylinder 22 moves to drive the plugging block 21 to carry out plugging and air distribution so as to finish the tightness test.

4. After the clutch master cylinder assembly is qualified, the oil pipe pressing cylinder 43 rises, and the master cylinder pressing cylinder 33 rises, so that the clutch master cylinder assembly is released under the combined action of the oil pipe pressing component 4 and the master cylinder pressing component 3.

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 (10)

1. Installation of clutch master cylinder oil pipe and testing arrangement, its characterized in that: the oil pipe sealing device comprises an installation vertical plate, a cylinder body transverse sliding block assembly and an oil pipe transverse sliding block assembly, wherein the cylinder body transverse sliding block assembly and the oil pipe transverse sliding block assembly can transversely slide on the installation vertical plate, the cylinder body transverse sliding block assembly is connected with a main cylinder pressing assembly used for pressing a clutch main cylinder, the oil pipe transverse sliding block assembly is connected with an oil pipe pressing assembly used for pressing an oil pipe and an oil pipe opening blocking assembly used for blocking an oil pipe opening and accessing an air distribution to carry out sealing test, the main cylinder pressing assembly moves along with the cylinder body transverse sliding block assembly along the oil pipe direction to enable the oil pipe to be assembled on an oil port of the clutch main cylinder, and the oil pipe sealing device further comprises.

2. The clutch master cylinder oil pipe installation and testing device of claim 1, wherein: the main cylinder pressing assembly and the oil pipe pressing assembly respectively comprise a lower fixing block and an upper pressing block which can move up and down relative to the lower fixing block.

3. The clutch master cylinder oil pipe installation and testing device of claim 2, wherein: the lower fixing block of the main cylinder pressing assembly is fixed on the cylinder body transverse sliding block assembly through a bolt, and the upper pressing block of the main cylinder pressing assembly is installed on the cylinder body transverse sliding block assembly through a linear guide rail and is connected with the main cylinder pressing cylinder.

4. The clutch master cylinder oil pipe installation and testing device of claim 2, wherein: the lower fixing block of the oil pipe pressing assembly is fixed on the oil pipe transverse sliding block assembly through a bolt, and the upper pressing block of the oil pipe pressing assembly is installed on the oil pipe transverse sliding block assembly through a linear guide rail and is connected with the oil pipe pressing cylinder.

5. The clutch master cylinder oil pipe installation and testing device of claim 2, wherein: the oil pipe pressing assembly is arranged between the cylinder body transverse sliding block assembly and the oil pipe transverse sliding block assembly on the installation vertical plate, a lower fixing block of the oil pipe pressing assembly is fixed on the installation vertical plate through a bolt, an upper pressing block of the oil pipe pressing assembly is connected with an oil pipe pressing cylinder, and an upper pressing block of the oil pipe pressing assembly is installed on the installation vertical plate through a linear guide rail.

6. The clutch master cylinder oil pipe installation and testing device of claim 1, wherein: the oil pipe opening plugging assembly comprises a plugging block and an oil pipe plugging air cylinder for driving the plugging block to move, and the plugging block is connected with a sealing test joint.

7. The clutch master cylinder oil pipe installation and testing device of any one of claims 1 to 6, wherein: the cylinder body transverse sliding block assembly is installed on the installation vertical plate through a linear guide rail and connected with the electric cylinder, and the force sensor is installed between the cylinder body transverse sliding block assembly and the electric cylinder.

8. The clutch master cylinder oil pipe installation and testing device of claim 7, wherein: the oil pipe transverse sliding block assembly is installed on the installation vertical plate through a linear guide rail and is connected with the screw nut mechanism.

9. The clutch master cylinder oil pipe installation and testing device of claim 1, wherein: the device also comprises a filter screen on-site detection sensor for detecting whether the filter screen is arranged on an oil port of the clutch main cylinder.

10. The clutch master cylinder oil pipe installation and testing device of claim 1, wherein: the device also comprises an oil pipe length detection sensor for detecting the length of the oil pipe.

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