CN110721933A

CN110721933A - Full-automatic switch testing machine

Info

Publication number: CN110721933A
Application number: CN201911112500.3A
Authority: CN
Inventors: 孙联祥
Original assignee: ZHEJIANG BEI ER JIA ELECTRONICS CO Ltd
Current assignee: ZHEJIANG BEI ER JIA ELECTRONICS CO Ltd
Priority date: 2019-11-14
Filing date: 2019-11-14
Publication date: 2020-01-24

Abstract

The invention discloses a full-automatic switch testing machine, which comprises a workbench, a control display arranged on the outer side of the workbench, a loading device, a detection device and a discharging mechanism, wherein the loading device comprises a loading vibration disc and a loading slideway, and a loading cylinder is arranged at the tail end of the loading slideway; the detection device comprises a test channel, a resistance test mechanism, a button pressing hand feeling test mechanism, a working indicator lamp test mechanism and a button direction test mechanism are sequentially arranged on the outer side of the test channel, and a material moving mechanism is arranged on the inner side of the test channel; the unloading mechanism comprises an unloading cylinder, an unloading slide way and a waste material slide way, wherein the other end of the workbench is provided with a waste material groove, and the waste material slide way extends into the waste material groove. The invention can detect various parameters of the switch to be tested, is comprehensive and accurate, can select the type of parameter detection according to the requirement and has strong applicability; the control display and various testing mechanisms are adopted, so that the automation degree is high, the operation is simple, and the working efficiency is effectively improved.

Description

Full-automatic switch testing machine

Technical Field

The invention relates to the technical field of electronic product testing, in particular to a full-automatic switch testing machine.

Background

Along with the continuous development and progress of the society, electronic products are rapidly developed, and meanwhile, higher requirements are provided for the quality of the electronic products, various electronic products need to be provided with switches, and the switches are used as electronic products with wider application, the required quantity is large, and the consistency of the products is required to be good.

However, the traditional method of manually detecting the product has low working efficiency and low detection precision, some mechanical detection methods are available in the market at present, but only single performance detection of the switch is required, all performances of the whole product cannot be guaranteed, and the production efficiency is extremely low.

In view of this, it is urgently needed to improve the existing switch testing structure so as to facilitate the operation and improve the detection precision and efficiency.

Disclosure of Invention

The invention aims to solve the technical problems of low detection precision and low working efficiency of the existing switch test structure.

In order to solve the above technical problems, the technical solution of the present invention is to provide a switch full-automatic testing machine, which includes a workbench and a control display arranged outside the workbench, and further includes:

the feeding device is arranged at one end of the workbench and comprises a feeding vibration disc and a feeding slideway, and a feeding cylinder is arranged at the tail end of the feeding slideway;

the detection device comprises a test channel communicated with the feeding slideway, a resistance test mechanism, a button pressing hand feeling test mechanism, a working indicator lamp test mechanism and a button direction test mechanism are sequentially arranged on the outer side of the test channel, a material moving mechanism is arranged on the inner side of the test channel, the material moving mechanism is provided with a plurality of clamping grooves matched with the switch, and the control display controls the material moving mechanism to transversely and longitudinally move on the workbench;

the blanking mechanism comprises a discharging cylinder arranged at the outer side of the test channel, a discharging slide way at the other end of the workbench and a waste material slide way, wherein a waste material groove is formed in the other side of the workbench, and the waste material slide way extends into the waste material groove;

the control display is started, the feeding cylinder, the resistance testing mechanism, the button testing mechanism, the working indicator lamp testing mechanism, the material moving mechanism and the discharging cylinder enter a working state, a switch to be tested enters the feeding slideway under the vibration of the feeding vibrating disk, and enters the test channel under the pushing of the feeding cylinder, the material moving mechanism moves longitudinally, the switch to be tested is clamped in the corresponding clamping groove, and moves transversely in the test channel along with the movement of the material moving mechanism, and passes through the detection of the resistance test mechanism, the button pressing hand feeling test mechanism, the working indicator light test mechanism and the button direction test mechanism in sequence, and the detection result is displayed on the control display, qualified products are discharged from the discharging slideway, and unqualified products are pushed by the discharging cylinder and enter the waste material groove from the waste material slideway.

In another preferred embodiment, the material moving mechanism includes:

the longitudinal cylinder is arranged on the workbench in a sliding mode through a longitudinal guide rail, the longitudinal guide rail is perpendicular to the testing channel, and a transverse slide rail is arranged on the upper side of the longitudinal cylinder;

a transverse cylinder which is arranged on the transverse slide rail in a sliding way,

the material moving frame is fixed at the outer end of a piston rod of the transverse air cylinder, a plurality of material moving forks are arranged at the upper part of the material moving frame, and the clamping grooves are formed in the material moving forks.

In another preferred embodiment, the feeding chute and the testing channel are arranged in parallel, a first opening for moving a piston rod of the feeding cylinder is arranged on the outer side of the testing channel, a second opening communicated with the testing channel is arranged on the inner side of the testing channel, a baffle is arranged at the tail end of the testing channel, and the first opening and the second opening are arranged oppositely and configured as follows:

and a piston rod of the feeding cylinder extends out and penetrates through the first opening, and a switch to be tested enters the testing channel from the second opening under the action of the piston rod.

In another preferred embodiment, the resistance testing mechanism includes:

the resistance instrument is arranged on the workbench and used for checking the on-off state of the switch to be tested;

the resistance testing part is provided with a resistance testing probe at the bottom of the testing channel, performs resistance inspection on a metal terminal of the switch to be tested and is arranged at one side of the testing channel;

the first finger cylinder is fixed above the resistance testing part and comprises two first pressing rods, and the two first pressing rods are arranged above the testing channel and respectively act to realize the opening and closing states of the switch to be tested.

In another preferred embodiment, the button press feel testing mechanism includes:

the output end of the servo motor is provided with a pressing part which is a cam mechanism and is arranged above the test channel, and the pressing part presses the switch to be tested along with the rotation of the servo motor;

the pressing hand feeling testing part is arranged on the outer side of the workbench and is provided with a fixed probe arranged at the bottom of the testing channel, and the fixed probe is opposite to the pressing part and is used for fixing the position of a switch to be tested.

In another preferred embodiment, the work light testing mechanism includes:

the photoresistor is arranged above the test channel;

and the power supply probe is arranged at the bottom of the test channel, is opposite to the photoresistor and is used for connecting a metal terminal of the switch to be tested.

In another preferred embodiment, the pressing direction test mechanism includes:

the second finger cylinder comprises two second pressure rods, and the two second pressure rods are arranged above the test channel and respectively act to realize the opening and closing states of the switch to be tested;

and the conductive probe is arranged at the bottom of the test channel, is opposite to the second finger cylinder and is used for connecting a metal terminal of the switch to be tested.

In another preferred embodiment, a clamping piece is arranged on the top surface of the outer side of the material moving fork, a first bayonet is arranged at the outer end of the material moving fork, a second bayonet with the width smaller than that of the first bayonet is arranged on the clamping piece, and the first bayonet and the second bayonet are respectively matched with the width of a panel and the width of a key of a switch to be tested.

In another preferred embodiment, the discharge chute is opposite to the test channel, the waste chute is parallel to the discharge chute and has a distance with the output port of the test channel, and the telescopic rod of the discharge cylinder extends into the distance or retracts from the distance.

In another preferred embodiment, the discharge chute and the scrap chute are both arranged in a downward inclination, and the discharge chute is longer than the scrap chute and extends out of the scrap chute.

Compared with the prior art, the invention has the advantages that the switch to be tested enters the feeding slideway under the vibration of the feeding vibration plate and enters the testing channel under the pushing of the feeding cylinder, the material moving mechanism moves longitudinally, the switch to be tested is clamped into the corresponding clamping groove and moves transversely in the testing channel along with the movement of the material moving mechanism, the switch to be tested sequentially passes through the detection of the resistance testing mechanism, the button pressing hand feeling testing mechanism, the working indicator light testing mechanism and the button direction testing mechanism, the detection result is displayed on the control display, the qualified product is discharged from the discharging slideway, the unqualified product is pushed by the discharging cylinder and enters the waste chute through the waste slideway, and the invention has the following advantages:

1. the method can detect various parameters of the switch to be tested, is comprehensive and accurate, can select the type of parameter detection according to the requirement, and has strong applicability;

2. the control display and various testing mechanisms are adopted, so that the automation degree is high, the operation is simple, and the working efficiency is effectively improved.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial perspective view of the material moving mechanism of the present invention;

FIG. 3 is a partial perspective view of the feed cylinder and resistance testing mechanism of the present invention;

FIG. 4 is a partial perspective view of the button press feel testing mechanism of the present invention;

FIG. 5 is a partial perspective view of the work light testing mechanism of the present invention;

FIG. 6 is a partial perspective view of the button orientation test mechanism of the present invention;

fig. 7 is a schematic structural view of the present invention with the material transfer mechanism removed.

Detailed Description

The invention provides a full-automatic switch testing machine, which can detect various parameters of a switch to be tested, is comprehensive and accurate, can select the type of parameter detection according to the requirement and has strong applicability; the control display and various testing mechanisms are adopted, so that the automation degree is high, the operation is simple, and the working efficiency is effectively improved. The invention is described in detail below with reference to the drawings and the detailed description.

As shown in fig. 1, the switch full-automatic testing machine provided by the present invention comprises a workbench 100, a control display 200 arranged outside the workbench 100, a feeding device, a detecting device and a discharging mechanism.

As shown in fig. 1 and 2, the feeding device is disposed at one end of the workbench 100, and includes a feeding vibration plate 11 and a feeding chute 12, and a feeding cylinder 13 is disposed at a tail end of the feeding chute 12.

The detection device comprises a test channel 400 communicated with the feeding slideway 12, a resistance test mechanism 21, a button pressing hand feeling test mechanism 22, a working indicator lamp test mechanism 23 and a button direction test mechanism 24 are sequentially arranged on the outer side of the test channel 400, a material moving mechanism 300 is arranged on the inner side of the test channel 400, the material moving mechanism 300 is provided with a plurality of clamping grooves 333 matched with a switch, and the control display 200 controls the material moving mechanism 300 to move transversely and longitudinally on the workbench 100.

The blanking mechanism comprises a discharging cylinder 31 arranged at the outer side of the test channel 400, a discharging slide way 32 at the other end of the workbench 100 and a waste slide way 33, a waste trough 34 is arranged at the other side of the workbench 100, and the waste slide way 33 extends into the waste trough 34.

The working process of the invention is as follows: the control display 200 is started, the feeding cylinder 13, the resistance testing mechanism 21, the button pressing hand feeling testing mechanism 22, the working indicator light testing mechanism 23, the material moving mechanism 300 and the discharging cylinder 31 enter a working state, the switch 500 to be tested enters the feeding slideway 12 under the vibration of the feeding vibration disc 11, and enters the testing channel 400 under the pushing of the feeding cylinder 13, the material moving mechanism 300 moves longitudinally, the switch 500 to be tested is clamped into the corresponding clamping groove 333, and moves horizontally in the testing channel 400 along with the movement of the material moving mechanism 300, and passes through the detection of the resistance testing mechanism 21, the button pressing hand feeling testing mechanism 22, the working indicator light testing mechanism 23 and the button direction testing mechanism 24 in sequence, and the detection result is displayed on the control display 200, the qualified product is discharged from the discharging slideway 32, and the unqualified product is pushed by the discharging cylinder 31 and enters the waste chute 34 through the waste slideway 33.

The width and depth of the feeding slideway 12 and the testing channel 400 can be adjusted according to the specific requirements and the size of the switch 500 to be tested, each testing mechanism can be selectively opened or closed according to the requirements, after one testing mechanism is closed, the switch 500 to be tested directly slides, the display 200 is controlled to not display the testing parameters, the testing device is suitable for switches of various types, and different functions are integrated.

As shown in fig. 2, in a preferred embodiment of the present invention, the material moving mechanism 300 includes a longitudinal cylinder 311, a transverse cylinder 322, and a material moving rack 331. The longitudinal cylinder 311 is slidably disposed on the working table 100 through a longitudinal guide rail 312, the longitudinal guide rail 312 is perpendicular to the testing channel 400, and a transverse slide rail 321 is disposed on an upper side of the longitudinal cylinder 311. The transverse cylinder 322 is slidably disposed on the transverse slide rail 321. The material moving frame 331 is fixed at the outer end of the piston rod of the transverse cylinder 322, the upper part of the material moving frame is provided with a plurality of material moving forks 332, and each material moving fork 332 is provided with a clamping groove 333. The outer side of the test channel 400 is provided with a plurality of test points, each test point is subjected to test work by the switch 500 to be tested, when the process needs to be changed, each switch 500 to be tested enters the corresponding clamping groove 333, the material moving fork 332 moves under the action of the transverse air cylinder 322 under the control of the control display 200, each test switch slides in the test channel 400 along with the test switch, when the next test point is reached, the material moving fork 332 retreats under the action of the longitudinal air cylinder 311, the clamping groove 333 retreats from the switch 500 to be tested, and the test is started.

As shown in fig. 2, further, a clamping member 334 is arranged on the top surface of the outer side of the material moving fork 332, a first clamping opening is arranged at the outer end of the material moving fork 332, the clamping member 334 is provided with a second clamping opening with a width smaller than that of the first clamping opening, and the first clamping opening and the second clamping opening are respectively adapted to the width of the panel and the width of the key of the switch 500 to be tested. Because the button panel and the button of the switch 500 to be tested are different sizes, in order to ensure the moving stability of the switch 500 to be tested, the clamping piece 334 is additionally arranged to form two clamping openings, and the structure is matched more accurately.

As shown in fig. 3, in a preferred embodiment of the present invention, the feeding chute 12 and the testing channel 400 are arranged in parallel, a first opening for the piston rod of the feeding cylinder 13 to move is arranged at the outer side of the testing channel 400, a second opening communicated with the testing channel 400 is arranged at the inner side, a baffle is arranged at the end, and the first opening and the second opening are arranged oppositely and configured as follows: the piston rod of the feeding cylinder 13 extends out and passes through the first opening, and the switch 500 to be tested enters the test channel 400 from the second opening under the action of the piston rod. The feeding slideway 12 and the testing channel 400 are arranged, so that the switch 500 to be tested is prevented from directly sliding into the testing channel 400, and the piston rod of the feeding cylinder 13 is used for pushing the switch to be tested into the testing channel 400, and the device is automatic, convenient and fast.

In a preferred embodiment of the present invention, the resistance measuring mechanism 21 includes a resistance meter 213, a resistance measuring portion 211, and a first finger cylinder 212. The resistance meter 213 is disposed on the table 100 and is used to check the on/off state of the switch 500 to be tested. The resistance test unit 211 is provided with a resistance test probe at the bottom of the test channel 400, and performs resistance test on the metal terminal of the test switch 500, and is provided at one side of the test channel 400. The first finger cylinder 212 is fixed above the resistance testing portion 211, and includes two first pressing rods, which are disposed above the testing channel 400 and respectively operate to open and close the switch 500 to be tested. Corresponding parts are arranged at the bottom and above the test channel 400 to detect the resistance of the switch 500 to be tested after being turned on, so that the normal resistance range and the sensitive contact are ensured. The first finger cylinder 212 is used for simulating human hand pressure and respectively corresponds to two working positions of the switch 500 to be tested

As shown in fig. 4, in a preferred embodiment of the present invention, the button pressing feel testing mechanism 22 includes a servo motor 221 and a pressing feel testing part 223. The output end of the servo motor 221 is provided with a pressing part 222, the pressing part 222 is a cam mechanism, is arranged above the test channel 400, and presses the switch 500 to be tested along with the rotation of the servo motor 221; the pressing hand feeling testing part 223 is disposed outside the workbench 100, and is provided with a fixed probe disposed at the bottom of the testing channel 400, the fixed probe being opposite to the pressing part 222 to fix the position of the switch 500 to be tested. Because the pressing has great force, in order to prevent the switch 500 to be tested from slipping, the fixed probe is utilized for fixing, and because the key is usually arranged in a rotating way and is matched with the stress principle of the key, the pressing part 222 of the cam mechanism is adopted to apply force uniformly, so that the pressing hand feeling is effectively measured.

In a preferred embodiment of the present invention, as shown in fig. 5, the operation indicator light testing mechanism 23 includes a light dependent resistor 231 and a power probe 232. The light dependent resistor 231 is disposed above the testing channel 400, and the power probe 232 is disposed at the bottom of the testing channel 400 opposite to the light dependent resistor 231 for connecting the metal terminal of the switch 500 to be tested. Power probe 232 is used for making inside work pilot lamp circular telegram to send light, and photo resistance 231 is used for detecting the light intensity, detects whether work pilot lamp is normal, and whether luminance is qualified.

As shown in fig. 6, in a preferred embodiment of the present invention, the pressing direction testing mechanism 24 includes a second finger cylinder 241 and a conductive probe 242. The second finger cylinder 241 includes two second pressing rods, which are disposed above the testing channel 400 and respectively act to open and close the switch 500 to be tested. The conductive probe 242 is disposed at the bottom of the test channel 400, opposite to the second finger cylinder 241, and is used for connecting the metal terminal of the switch 500 to be tested. The pressing direction test is used for ensuring whether the contacts inside the keys are installed correctly or not and preventing the contacts from being opened and closed reversely, and the second finger cylinder 241 is used for simulating the hand pressure of a human and corresponds to two working positions of the switch 500 to be tested respectively.

In a preferred embodiment of the invention, shown in figure 7, the discharge chute 32 is opposite the test channel 400, the scrap chute 33 is parallel to the discharge chute 32 and spaced from the output of the test channel 400, and the telescopic rod of the discharge cylinder 31 extends into or retracts from the spacing. The operating condition of the discharging cylinder 31 is controlled by the control display 200, the qualified products do not move and directly enter the discharging slideway 32, the unqualified products move and enter the waste slideway 33 through the pushing of the discharging cylinder 31, and the control is simple and accurate.

In a preferred embodiment of the invention, the discharge chute 32 and the scrap chute 33 are arranged in a downwardly inclined configuration, and the discharge chute 32 is longer than the scrap chute 33 and extends beyond the scrap chute 34. In the production process, the number of qualified products is larger than that of unqualified products, the qualified products can be directly subjected to the next assembly process, and the unqualified products are stored at the tail end of the test channel 400, so that the maintenance or other purposes are facilitated.

The invention is characterized in that a plurality of detection mechanisms are sequentially arranged outside a test channel, the resistance, the button pressing hand feeling, a working indicator lamp and the button direction of a switch to be tested are tested, a display is controlled to be started, a feeding cylinder, a resistance test mechanism, a button test mechanism, a working indicator lamp test mechanism, a material moving mechanism and a discharging cylinder are in a working state, the switch to be tested enters a feeding slideway under the vibration of a feeding vibration disc and enters the test channel under the pushing of the feeding cylinder, the material moving mechanism moves longitudinally, the switch to be tested is clamped in a corresponding clamping groove and moves transversely in the test channel along with the movement of the material moving mechanism, the switch to be tested sequentially passes through the detection of the resistance test mechanism, the button pressing hand feeling test mechanism, the working indicator lamp test mechanism and the button direction test mechanism, the detection result is displayed on the control display, and qualified products are discharged from the discharging slideway, the unqualified product gets into the silo by the waste material slide through the promotion of the cylinder of unloading, has following advantage:

The present invention is not limited to the above-mentioned preferred embodiments, and any structural changes made under the teaching of the present invention shall fall within the scope of the present invention, which is similar or similar to the technical solutions of the present invention.

Claims

1. The utility model provides a full-automatic test machine of switch, includes the workstation and sets up the control display in the workstation outside, its characterized in that still includes:

2. The switch full-automatic testing machine according to claim 1, wherein the material moving mechanism comprises:

3. The switch full-automatic testing machine according to claim 1, wherein the feeding chute and the testing channel are arranged in parallel, a first opening for a piston rod of the feeding cylinder to move is arranged on the outer side of the testing channel, a second opening communicated with the testing channel is arranged on the inner side of the testing channel, a baffle is arranged at the tail end of the testing channel, and the first opening and the second opening are arranged oppositely and configured to:

4. The fully automatic switch testing machine of claim 1, wherein the resistance testing mechanism comprises:

5. The switch full-automatic testing machine according to claim 1, wherein the button pressing feel testing mechanism comprises:

6. The switch automatic testing machine according to claim 1, wherein the work light testing mechanism comprises:

the photoresistor is arranged above the test channel;

7. The switch automatic testing machine according to claim 1, wherein the pressing direction testing mechanism comprises:

8. The full-automatic switch testing machine according to claim 2, wherein a clamping member is provided on a top surface of an outer side of the material moving fork, a first clamping opening is provided on an outer end of the material moving fork, the clamping member is provided with a second clamping opening having a width smaller than that of the first clamping opening, and the first clamping opening and the second clamping opening are respectively adapted to a width of a panel and a width of a key of a switch to be tested.

9. The switch automatic testing machine according to claim 1, wherein the discharging chute is opposite to the testing channel, the waste chute is parallel to the discharging chute and has a distance from the output port of the testing channel, and the telescopic rod of the discharging cylinder extends into the distance or retracts from the distance.

10. The switch automatic testing machine according to claim 1, wherein the discharging chute and the waste chute are both arranged in a downward inclination, and the discharging chute has a length larger than that of the waste chute and extends out of the waste chute.