CN111337854A - Multifunctional detection device for reversing image wire harness - Google Patents

Abstract

The invention belongs to a multifunctional detection device for a reversing image wire harness, which comprises a workbench; the device is characterized in that a first vibrating machine is arranged on the left side of the upper surface of a workbench, a first spring is arranged on a vibrating rod of the first vibrating machine, a vibrating rod is arranged at the lower end of the first spring, a first cylinder mounting seat is fixed on the right side of the workbench, a second conduction jig is arranged at the left end of the upper middle part of the workbench through a bolt, and a first conduction jig is arranged at the right end of the upper middle part of the workbench through a bolt; a second vibrating machine is arranged in the middle of the lower surface of the workbench, guide posts are fixed at four corners, a second spring is arranged on each guide post, and the lower ends of the guide posts are movably inserted into guide holes formed in the base. The invention can detect whether the three technical conditions of the damping sponge, the image and the pressure resistance of the reversing image wire harness are qualified or not by using one detection device, thereby saving two thirds of detection personnel, reducing the production cost and avoiding missing detection.

Description

Multifunctional detection device for reversing image wire harness

Technical Field

The invention belongs to a wire harness detection device, and particularly relates to a multifunctional detection device for a reversing image wire harness.

Background

The image pencil of backing a car is the pencil that the image of the car image of backing a car used, is an important part that control car is backed a car, must do three detections to the pencil of backing a car that produces: whether the damping sponge is qualified or not, and whether an image is generated or not, namely whether the conducting wires of the wiring harness can be conducted or not; thirdly, pressure resistance detection.

In the past, three detection personnel are required to respectively use a special detection device for detection, the labor and equipment cost is high, the product cost is high, meanwhile, the phenomenon of missed detection can occur, the product quality is affected, and if the device is installed on an automobile, serious accidents can be caused.

Disclosure of Invention

The invention aims to overcome the technical defects and provide the multifunctional detection device for the reversing image wire harness, which adopts one detection device for detecting the damping sponge, the image and the pressure resistance, is operated by one person, cannot cause missing detection and greatly reduces the product cost.

The technical problem to be solved by the invention is that: a multifunctional detection device for a reversing image wire harness comprises a workbench; the vibration machine I is arranged on the left side of the upper surface of a workbench, a spring I is arranged on a vibration rod of the vibration machine I, a vibration rod is arranged at the lower end of the spring I, an air cylinder I mounting seat is fixed on the upper surface of the right side of the workbench, and an air cylinder I is fixedly arranged on the air cylinder I mounting seat through an air cylinder I mounting cover and a screw; a piston rod of the first cylinder is positioned on the same central line with the lock hole and is in close contact with the lock hole; the rear cavity of the first air cylinder is provided with a first air cylinder rear cavity air inlet and outlet hole, the front cavity is provided with a first air cylinder front cavity air inlet and outlet hole, and the two joints are communicated with and controlled by the air compression control system through pipelines; a dotting device is arranged at the lower left of the first cylinder; a second conduction jig is arranged at the left end of the upper surface of the middle part of the workbench through a bolt, and a first conduction jig is arranged at the right end of the upper surface of the middle part of the workbench through a bolt; a socket is arranged on the left side of the lower part of the workbench through a bolt, a plug is arranged on the right side of the lower part of the workbench, a second air cylinder is arranged in the middle of the lower part of the workbench, a right-angle-shaped locking plate is fixed at the end of two piston rods of the second air cylinder, a wire clamping seat is arranged below the locking plate through a screw, an arc-shaped groove for installing wires is arranged in the middle of the upper surface of the wire clamping seat, and an infrared ray correlation sensor is; a second vibrating machine is arranged in the middle of the lower surface of the workbench, guide posts are fixed at four corners, a second spring is arranged on each guide post, and the lower ends of the guide posts are movably inserted into guide holes formed in the base.

The first vibrating machine comprises a first vibrating machine box body arranged on a workbench, a first motor seat is fixed on the workbench behind the first vibrating machine box body, a first motor is arranged on the first motor seat, a shaft of the first motor penetrates through a cavity of the first vibrating machine box body, a driving wheel is fixed at the end of the first motor, an eccentric column is fixed on the driving wheel, the eccentric column is in sliding connection with an eccentric column slide rail arranged on a vibrating rod, a first spring is arranged on the right side of the vibrating rod, the left end of the vibrating rod is in sliding connection with a sliding rail, and the sliding rail is fixed on the first vibrating machine box body through bolts; the other end of the spring is provided with a vibration rod.

The second vibrating machine comprises a second motor seat fixed in the middle of the upper surface of the base, a second motor is arranged on the second motor seat, the shaft of the second motor is penetrated in the cavity of the second box body of the vibrating machine, and an eccentric cam is fixed at the end of the second motor by a bolt; the second box body of the vibrating machine is fixed on the second motor seat, and the upper cover of the second box body of the vibrating machine is provided with a cam slideway; the boss of the eccentric cam passes through the cam slideway to contact with the lower surface of the workbench to vibrate.

The dotting device comprises a rotary cylinder, a right-angle supporting plate is fixed at the upper end of the rotary cylinder, and a marking pen is fixed in two pen holes for containing pens by bolts at the upper end of the right-angle supporting plate; the upper cavity of the rotary cylinder is provided with an upper cavity air inlet and outlet joint, and the lower cavity is provided with a lower cavity air inlet and outlet joint; the two air inlet and outlet hole joints are communicated with and controlled by an air compression control system through pipelines.

The first conduction jig comprises a contact switch shell, the contact switch shell and the corresponding position of the first conduction jig are respectively provided with a contact switch which is started and stopped, a lock hole is formed in the plane of the contact switch shell, the upper surface of the lock hole is hinged with a pull plate through a second pin shaft hinge, the other end of the pull plate is hinged with a handle through the second pin shaft hinge, the handle is hinged with a handle seat through the first pin shaft hinge, and the handle seat is fixed on the workbench.

The invention has the advantages that whether the three technical conditions of the damping sponge, the image and the pressure resistance of the reversing image wire harness are qualified or not can be detected by using one detection device, two thirds of detection personnel are saved, the production cost is reduced, and the omission of detection is avoided.

Drawings

The following description is made in detail by way of example with reference to the accompanying drawings.

FIG. 1 is a front view of a reversing image harness multifunctional inspection device;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a front view of the assembly of cylinder one and cylinder one block of FIG. 1;

FIG. 4 is an assembly view of the rotary cylinder and marker pen of FIG. 1

FIG. 5 is a front cross-sectional view of the first vibrator of FIG. 2;

FIG. 6 is a front cross-sectional view of the vibrator II of FIG. 1;

FIG. 7 is a front view of the assembly of cylinder two and the wire trap seat of FIG. 2;

fig. 8 is a schematic diagram of the control circuit principle of the Programmable Logic Controller (PLC) and the withstand voltage tester, the vibrator relay, the infrared correlation sensor, the bad lock control solenoid valve, the image lock solenoid valve, the image display and the dotting solenoid valve of the reversing image wire harness multifunctional detection device.

In the figure: 1-a workbench; 2-a wire harness; 3-damping sponge; 4-vibrating machine one; 4-1-vibration rod; 4-2-spring one; 4-3-vibration rod; 4-4-driving wheel; 4-5-eccentric column; 4-6-sliding rail; 4-7-eccentric column slide; 4-8-one motor seat; 4-9-a box body of the shaking machine; 4-10-vibration rod slide; 4-11-motor one; 5-vibrating machine two; 5-1-eccentric cam; 5-2-motor two; 5-3-vibrating machine two box bodies; 5-4-cam ramp; 5-5-motor two seat; 5-6-bolt; 6-dotting device; 6-1-upper cavity air inlet and outlet hole joint; 6-2-rotating cylinder; 6-3-marker pen; 6-4-pen hole; 6-5-support plate; 6-6-lower cavity air inlet and outlet hole joint; 6-7-bolt; 7-cylinder I; 7-1-a rear cavity air inlet and outlet hole of the cylinder; 7-2-a cylinder mounting seat; 7-3-a cylinder mounting cover; 7-4-a front cavity air inlet and outlet hole of the cylinder; 7-5-a piston rod of the cylinder; 8, conducting the first fixture; an 8-1-contact switch; 8-2-keyhole; an 8-3-contact switch housing; 8-4-handle seat; 8-5-pin shaft I; 8-6-pulling plate; 8-7-pin shaft II; 8-8-handle; 9-a plug; 10-a photosensor; 11-a wire clamping seat; 11-1-arc groove; 12-a locking plate; 13-cylinder two; 13-1-air inlet and outlet holes of the front cavity of the second cylinder; 13-2-air cylinder II back cavity air inlet and outlet holes; 14-a socket; 15-conducting a second fixture; 16-a base; 17-a pilot hole; 18-a guide post; 19-spring two; 22-FXIN-40 programmable controller; 23-a withstand voltage tester; 24-conduction tester; 25-a shaker relay; 26-infrared correlation sensor; 27-bad lock control solenoid valve; 28-picture lock solenoid valve; 29-image display; 30-a solenoid valve for dotting; p1-picture left conduction socket; p2-picture right conduction socket; a U-left jig relay; and a K-switch.

Detailed Description

A multifunctional detection device for a reversing image wire harness comprises a workbench 1; the vibration machine is characterized in that a first vibration machine 4 is arranged on the left side of the upper surface of a workbench 1, a first spring 4-2 is arranged on a vibration rod 4-3 of the first vibration machine 4, a vibration rod 4-1 is arranged at the lower end of the first spring 4-2, a first cylinder mounting seat 7-2 is fixed on the upper surface of the right side of the workbench 1, and a first cylinder 7 is fixedly arranged on the first cylinder mounting seat 7-2 through a first cylinder mounting cover 7-3 and screws; a cylinder-piston rod 7-5 of the cylinder I7 is in close contact with the lock hole 8-2 on the same central line; the rear cavity of the first cylinder 7 is provided with a first cylinder rear cavity air inlet and outlet hole 7-1, the front cavity is provided with a first cylinder front cavity air inlet and outlet hole 7-4, and the two joints are communicated with and controlled by an air compression control system through pipelines; a dotting device 6 is arranged at the lower left of the first cylinder 7; a second conduction jig 15 is arranged at the left end of the upper surface of the middle part of the workbench 1 by using a bolt, and a first conduction jig 8 is arranged at the right end of the upper surface of the middle part of the workbench 1 by using a bolt; a socket 14 is arranged on the left side of the lower part of the workbench 1 through a bolt, a plug 9 is arranged on the right side of the lower part of the workbench 1, a second air cylinder 13 is arranged in the middle of the lower part of the workbench, a right-angle-shaped locking plate 12 is fixed at the end of two piston rods of the second air cylinder 13, a wire clamping seat 11 is arranged below the locking plate 12 through screws, an arc-shaped groove 11-1 for wire installation is arranged in the middle of the upper surface of the wire clamping seat 11, and an infrared ray correlation sensor 26 is arranged; a second vibrator 5 is arranged in the middle of the lower surface of the workbench 1, guide posts 18 are fixed at four corners, a second spring 19 is arranged on the guide posts 18, and the lower ends of the guide posts 18 are movably inserted in guide holes 17 formed in the base 16.

The vibration machine I4 comprises a vibration machine I box body 4-9 (shown in figure 5) arranged on the workbench 1, a motor seat 4-8 is fixed on the worktable 1 behind a box 4-9 of the vibrator, a motor I4-11 is arranged on a motor I4-8, the shaft of the motor I4-11 is penetrated in the cavity of a box body 4-9 of the vibration machine, a driving wheel 4-4 is fixed at the end, an eccentric column 4-5 is fixed on the driving wheel 4-4, the eccentric column 4-5 is in sliding connection with an eccentric column slideway 4-7 arranged on a vibration rod 4-3, a spring I4-2 is arranged on the right side of the vibration rod 4-3, the left end of the vibration rod is in sliding connection with a sliding rail 4-6, and the sliding rail 4-6 is fixed on the box body 4-9 of the vibration machine by a bolt; the other end of the first spring 4-2 is provided with a vibration rod 4-1.

The second vibrator 5 comprises a second motor seat 5-5 (shown in figure 6) fixed in the middle of the upper surface of the base 16, a second motor 5-2 is arranged on the second motor seat 5-5, the shaft of the second motor 5-2 penetrates through the cavity of a second vibrator box body 5-3, and an eccentric cam 5-1 is fixed at the end by a bolt 5-6; a second box body 5-3 of the vibrating machine is fixed on a second motor seat 5-5, and the upper cover of the second box body 5-3 of the vibrating machine is provided with a cam slideway 5-4; the boss of the eccentric cam 5-1 passes through the cam slideway 5-4 to contact with the lower surface of the workbench 1 for vibration.

The dotter 6 comprises a rotary cylinder 6-2, a right-angle supporting plate 6-5 is fixed at the upper end of the rotary cylinder 6-2, and a marking pen 6-3 is fixed in two pen holes 6-4 for holding pens at the upper end of the right-angle supporting plate 6-5 by a bolt 6-7; the upper cavity of the rotary cylinder 6-2 is provided with an upper cavity air inlet and outlet hole connector 6-1, and the lower cavity is provided with a lower cavity air inlet and outlet hole connector 6-6; the two air inlet and outlet hole joints are communicated with and controlled by an air compression control system through pipelines.

The first conduction jig 8 comprises a contact switch shell 8-3 (shown in the attached drawing 1), starting and stopping contact switches 8-1 are respectively arranged at the corresponding positions of the contact switch shell 8-3 and the first conduction jig 8, a lock hole 8-2 is arranged on the side face of the contact switch shell 8-3, a pull plate 8-6 is hinged to the upper face of the lock hole 8-2 through a pin shaft two 8-7, the other end of the pull plate 8-6 is hinged to a handle 8-8 through a pin shaft two 8-7, the handle 8-8 is hinged to a handle seat 8-4 through a pin shaft one 8-5, and the handle seat 8-4 is fixed on the workbench 1.

The FXIN-40 programmable controller 22 circuit principle of the device is shown in figure 8. 1-9 feet of FXIN-40 programmable controller 22 are respectively communicated with vibrator relay 25, dotting electromagnetic valve 30, portrait lock electromagnetic valve 28, bad lock control electromagnetic valve 27, withstand voltage tester 23, conduction tester 24, image display 29, infrared ray opposite radiation sensor 26 and one end of photoelectric sensor 10 by leads, and 10 feet are connected with portrait right conduction socket P2, one end of switch K is communicated with the other end of bad lock control electromagnetic valve 27, portrait lock electromagnetic valve 28, dotting electromagnetic valve 30 and vibrator relay 25; the other end of the image display 29 is connected to the left image conducting socket P1, and the other end of the left image conducting socket P1 is connected to the other end of the right image conducting socket P2; the other ends of the conduction tester 24 and the withstand voltage tester 23 are communicated with one end of a left jig relay U, and the other end of the left jig relay U is connected with the other end of the switch K.

The operation method of the invention comprises the following steps:

firstly, a wiring harness 2 is placed in an arc-shaped groove 11-1 arranged on a wire clamping seat 11, the left end of the wiring harness 2 is inserted into a socket 14, and a lead at the other end is connected with a plug 9; starting the FXIN-40 programmable controller 22, after the infrared correlation sensor 26 arranged in the arc-shaped groove 11-1 detects that the wiring harness 2 is placed in the FXIN-40 programmable controller 22 gives an instruction to the image lock electromagnetic valve 28, the image lock electromagnetic valve 28 acts, air pressure enters the rear cavity from the air inlet/outlet hole 13-2 of the second rear cavity of the air cylinder, and the piston rod and the locking plate 12 are pushed to lock the wiring harness 2; the shock absorption sponge 3 arranged in the middle of the wiring harness 2 is aligned with the photoelectric sensor 10, and if the photoelectric sensor 10 receives light reflected by the shock absorption sponge 3, a good signal is given on a display screen of the FXIN-40 programmable controller 22; if the damping sponge 3 does not exist or the quality is unqualified, the photoelectric sensor 10 cannot receive a reflection signal, at the moment, a detection person needs to open a lock on the vibrator relay 25 by using a key, the air inlet and outlet hole 13-1 of the second front cavity of the air cylinder is used for introducing air, the piston rod and the locking plate 12 are retracted, and the bad wiring harness 2 is taken down.

Secondly, image detection is carried out: if the wiring harness 2 is assembled in the same step as the first step and the image captured by the camera 21 connected to the socket 14 does not show an image or has a problem on the image display 29, the solenoid valve 28 is locked and operated in the same step as the first step, and the defective wiring harness 2 is removed.

And thirdly, detecting qualified products in the first step and the second step, installing the left end of the qualified product on a second conduction jig 15, installing the right end of the qualified product on a first conduction jig 8, placing the vibration rod 4-1 below the middle of the damping sponge 3, rotating the handle 8-8 anticlockwise, and moving the contact switch shell 8-3 leftwards to close the moving point and the static point of the contact switch 8-1. Starting a vibration machine I4, driving a vibration rod 4-3, a spring I4-2 and a vibration rod 4-1, and carrying out voltage resistance detection on the wiring harness 2; if the air pressure is unqualified, the air inlet and outlet hole 7-1 of the air cylinder I rear cavity of the air cylinder I7 is used for supplying high-pressure air to push the air cylinder I piston rod 7-5 to stretch out, the wire harness 2 is locked, a detector opens a lock on the vibrator relay 25 by using a key, after the lock is opened, the air pressure control system can supply high-pressure air from the air inlet and outlet hole 7-4 of the air cylinder I front cavity, the air cylinder I piston rod 7-5 is retracted, and the unqualified product is taken. And sending a signal by the PLC for all qualified products, controlling the electromagnetic valve 27 to work by the bad lock, working the rotary cylinder 6-2 in the dotting device 6, feeding high-pressure air into the upper cavity of the rotary cylinder 6-2 by the air pressure control system, driving the supporting plate 6-5 to move downwards, driving the marking pen 6-3 to move downwards, marking a mark representing qualification on the terminal of the wire harness 2 by the marking pen 6-3, and recording by all the test recording vibrator relays 25.

Claims (5)

1. A multifunctional detection device for a reversing image wire harness comprises a workbench (1); the vibration machine is characterized in that a first vibration machine (4) is arranged on the left side of the upper surface of a workbench (1), a first spring (4-2) is arranged on a vibration rod (4-3) of the first vibration machine (4), a vibration rod (4-1) is arranged at the lower end of the first spring (4-2), a first air cylinder mounting seat (7-2) is fixed on the upper surface of the right side of the workbench (1), and a first air cylinder (7) is fixedly arranged on the first air cylinder mounting seat (7-2) through a first air cylinder mounting cover (7-3) and a screw; a cylinder-piston rod (7-5) of the cylinder I (7) is in close contact with the lock hole (8-2) on the same central line; the rear cavity of the cylinder I (7) is provided with a cylinder I rear cavity air inlet and outlet hole (7-1), the front cavity is provided with a cylinder I front cavity air inlet and outlet hole (7-4), and the two joints are communicated with and controlled by an air compression control system through pipelines; a dotting device (6) is arranged at the lower left of the first cylinder (7); a second conduction jig (15) is arranged at the left end of the upper surface of the middle part of the workbench (1) by using a bolt, and a first conduction jig (8) is arranged at the right end of the upper surface of the middle part of the workbench (1) by using a bolt; a socket (14) is arranged on the left side of the lower part of the workbench (1) by using a bolt, a plug (9) is arranged on the right side of the lower part of the workbench (1), a second air cylinder (13) is arranged in the middle of the lower part of the workbench, a right-angle-shaped locking plate (12) is fixed at the end of two piston rods of the second air cylinder (13), a wire clamping seat (11) is arranged below the locking plate (12) by using a screw, an arc-shaped groove (11-1) for wire installation is arranged in the middle of the upper surface of the wire clamping seat (11), and an infrared ray; a second vibrating machine (5) is arranged in the middle of the lower surface of the workbench (1), guide posts (18) are fixed at four corners, a second spring (19) is arranged on each guide post (18), and the lower ends of the guide posts (18) are movably inserted into guide holes (17) formed in the base (16).

2. The multifunctional detecting device for the reverse image wiring harness according to claim 1, wherein the vibrating machine I (4) comprises a vibrating machine I box body (4-9) arranged on the workbench (1), a motor I seat (4-8) is fixed on the workbench (1) behind the vibrating machine I box body (4-9), a motor I (4-11) is arranged on the motor I seat (4-8), the shaft of the motor I (4-11) is penetrated in the cavity of the vibrating machine I box body (4-9), a driving wheel (4-4) is fixed at the end, an eccentric column (4-5) is fixed on the driving wheel (4-4), the eccentric column (4-5) is connected with an eccentric column slideway (4-7) arranged on the vibrating rod (4-3) in a sliding manner, a spring I (4-2) is arranged on the right side of the vibrating rod (4-3), the left end is connected with a slide rail (4-6) in a sliding way, and the slide rail (4-6) is fixed on a box body (4-9) of the vibrating machine by a bolt; the other end of the first spring (4-2) is provided with a vibration rod (4-1).

3. The multifunctional detection device for the reverse image wiring harness according to claim 1, wherein the second vibrator (5) comprises a second motor seat (5-5) fixed in the middle of the upper surface of the base (16), the second motor seat (5-5) is provided with a second motor (5-2), the shaft of the second motor (5-2) penetrates through the cavity of the second vibrator box body (5-3), and the end of the second motor (5-2) is fixed with an eccentric cam (5-1) through a bolt (5-6); a second box body (5-3) of the vibrating machine is fixed on a second motor seat (5-5), and the upper cover of the second box body (5-3) of the vibrating machine is provided with a cam slideway (5-4); the boss of the eccentric cam (5-1) passes through the cam slideway (5-4) to contact with the lower surface of the workbench (1) for vibration.

4. The multifunctional detection device for the reverse image wiring harness according to claim 1, wherein the dotter (6) comprises a rotary cylinder (6-2), a right-angle-shaped support plate (6-5) is fixed at the upper end of the rotary cylinder (6-2), and a marking pen (6-3) is fixed in two pen holes (6-4) for holding pens by a bolt (6-7) at the upper end of the right-angle-shaped support plate (6-5); an upper cavity air inlet and outlet hole connector (6-1) is arranged on an upper cavity of the rotary cylinder (6-2), and a lower cavity air inlet and outlet hole connector (6-6) is arranged on a lower cavity; the two air inlet and outlet hole joints are communicated with and controlled by an air compression control system through pipelines.

5. The multifunctional detection device for the reverse image wiring harness according to claim 1, wherein the first conduction jig (8) comprises a contact switch shell (8-3), the contact switch shell (8-3) and the first conduction jig (8) are respectively provided with a contact switch (8-1) which is started and stopped at corresponding positions, the side surface of the contact switch shell (8-3) is provided with a lock hole (8-2), the upper surface of the lock hole (8-2) is hinged with a pull plate (8-6) through a second pin shaft (8-7), the other end of the pull plate (8-6) is hinged with a handle (8-8) through the second pin shaft (8-7), the handle (8-8) is hinged with a handle seat (8-4) through a first pin shaft (8-5), and the handle seat (8-4) is fixed on the workbench (1).

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