CN112499180B - Automatic test equipment for capacitive touch screen - Google Patents

Abstract

The invention relates to automatic test equipment, in particular to automatic test equipment for a capacitive touch screen. The technical problems of the invention are as follows: the automatic test equipment for the capacitive touch screen can realize automatic detection and has a good detection effect. The technical implementation scheme of the invention is as follows: an automatic test device for a capacitive touch screen comprises first connecting rods and connecting plates, wherein the first connecting rods are uniformly arranged between the connecting plates; the top of each connecting plate is provided with a supporting plate; the discharging mechanism is connected between the supporting plates; the testing mechanism is arranged on the discharging mechanism. Through the cooperation between drop feed mechanism and the accredited testing organization, can realize carrying out automated inspection's effect to capacitive touch screen automatically.

Description

Automatic test equipment for capacitive touch screen

Technical Field

The invention relates to automatic test equipment, in particular to automatic test equipment for a capacitive touch screen.

Background

In the production of electric products, in order to detect the quality and the using effect of products, the electric products are usually detected, the capacitive touch screen also belongs to one of the electric products, the maximum characteristic of the capacitive touch screen belongs to the touch screen effect, the touch screen effect of some capacitive touch screens is difficult to meet the requirements of customers, the touch screen sensitivity is possibly low, the experience sense of the customers is reduced, and the product selling effect is poor.

Therefore, after the capacitive touch screen is manufactured, the touch screen of the capacitive touch screen needs to be detected, the existing detection method is to use a detector, and the detector is manually close to the capacitive touch screen for detection, so that the operation is unstable, the capacitive touch screen is difficult to fix, the detection effect is poor, and meanwhile, the efficiency is low, so that the automatic test equipment for the capacitive touch screen, which can realize automatic detection and has a good detection effect, is developed at present.

Disclosure of Invention

In order to overcome the defects of poor detection effect and low efficiency caused by unstable operation of manual detection, the invention has the technical problems that: the automatic test equipment for the capacitive touch screen can realize automatic detection and has a good detection effect.

The technical implementation scheme of the invention is as follows: an automatic test equipment for a capacitive touch screen comprises:

the connecting plates are uniformly provided with first connecting rods;

the top of each connecting plate is provided with a supporting plate;

the discharging mechanism is connected between the supporting plates;

the testing mechanism is arranged on the discharging mechanism.

Optionally, the drop feed mechanism includes:

the discharging frame is connected between the supporting plates;

the first connecting frames are arranged on the two sides of the discharging frame;

the first connecting frames are connected with the sliding connecting rods in a sliding mode;

a sliding material blocking plate is arranged between one sides of the sliding connecting rods;

first springs are arranged between the sliding connecting rod and the first connecting frame.

Optionally, the testing mechanism comprises:

the two sides of the right part of the discharging frame are both connected with second connecting frames;

the sliding test plate is connected between the second connecting frames in a sliding manner;

and the second springs are arranged between the two sides of the sliding test plate and the second connecting frame.

Optionally, still include intermittent type feed mechanism, intermittent type feed mechanism includes:

the material storage frame is arranged on one side of the material discharge frame;

the material storage frame is connected with a sliding material receiving plate in a sliding manner;

third springs are arranged between the two sides of the bottom of the sliding material receiving plate and the material storage frame;

clamping stop plates are connected to both sides of the discharging frame;

the two sides of the discharging frame are rotatably connected with the rotating plates;

the sliding clamping plates are connected with the rotating plates in a sliding manner;

and the fourth springs are arranged between the outer sides of the sliding clamping plates and the rotating plates.

Optionally, the device further comprises an automatic access mechanism, wherein the automatic access mechanism comprises:

the winding sliding sleeve is connected with both sides of the middle part of the discharging frame;

two idler wheels are rotatably connected to the two sides of the left part of the material storage frame;

the rotating plates are provided with first straight gears;

the two sides of the sliding blocking plate are both connected with first racks, and the first racks are meshed with the first straight gears;

stay cord, sliding test board right part both sides all are connected with the stay cord, and wire winding sliding sleeve and gyro wheel are all walked around to the stay cord, and the stay cord end all is connected with first rack.

Optionally, still including conveying receiving mechanism, conveying receiving mechanism is including:

the conveying assemblies are rotatably connected between the supporting plates;

the material receiving frame is arranged on one side of the conveying assembly;

the material receiving frame is connected with the clamping connecting rod in a sliding manner;

and the fifth springs are arranged between the two sides of the left part of the clamping connecting rod and the material receiving frame.

Optionally, still including automatic drive mechanism, automatic drive mechanism is including:

the two sides of the right part of the sliding test plate are both connected with the driving plates;

the left part of the supporting plate is provided with a positioning sliding sleeve;

the positioning sliding sleeves are all connected with a second rack in a sliding manner, and the right sides of the second racks are connected with the driving plate;

and the two sides of the conveying assembly are both connected with second straight gears, and the second straight gears are meshed with the second racks.

Optionally, the device further comprises a blocking mechanism, wherein the blocking mechanism comprises:

the two sides of the conveying assembly are both connected with fixed sliding sleeves;

the sliding baffle is connected between the fixed sliding sleeves in a sliding manner;

and the sixth springs are arranged between the two sides of the upper part of the sliding baffle and the fixed sliding sleeve.

Compared with the prior art, the invention has the following advantages: 1. through the cooperation between drop feed mechanism and the accredited testing organization, can realize carrying out automated inspection's effect to capacitive touch screen automatically.

2. Through the cooperation between intermittent type feed mechanism and the automatic mechanism of cominging in and going out, can realize the effect of automatic interval material loading and automatic discharge.

3. Through the cooperation between conveying receiving mechanism, automatic drive mechanism and the barrier mechanism, can realize that the capacitive touch screen who falls presss from both sides tightly automatically and collects, the people of being convenient for take out.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 3 is a schematic perspective view of the testing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the intermittent feeding mechanism of the present invention.

Fig. 5 is a schematic perspective view of the automatic access mechanism of the present invention.

Fig. 6 is a schematic perspective view of a conveying and receiving mechanism of the present invention.

Fig. 7 is a schematic three-dimensional structure diagram of the automatic driving mechanism of the present invention.

Fig. 8 is a schematic perspective view of the blocking mechanism of the present invention.

The meaning of the reference symbols in the figures: 1: first connecting rod, 2: connecting plate, 3: support plate, 4: drop feed mechanism, 41: discharge frame, 42: first connection frame, 43: sliding connecting rod, 44: sliding plug plate, 45: first spring, 5: test mechanism, 51: second connection frame, 52: slide test plate, 53: second spring, 6: intermittent feed mechanism, 61: storage frame, 62: slip material receiving plate, 63: third spring, 64: rotating plate, 65: sliding clamping plate, 66: fourth spring, 67: clamping stop plate, 7: automatic entry/exit mechanism, 71: roller, 72: winding sliding sleeve, 73: pull cord, 74: first rack, 75: first straight gear, 8: conveying receiving mechanism, 81: transfer assembly, 82: receiving frame, 83: clamping connecting rod, 84: fifth spring, 9: automatic drive mechanism, 91: driving plate, 92: positioning sliding sleeve, 93: second rack, 94: second spur gear, 10: blocking mechanism, 101: fixed sliding sleeve, 102: slide damper, 103: and a sixth spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Example 1

An automatic test device for a capacitive touch screen is shown in figures 1-3 and comprises first connecting rods 1, connecting plates 2, supporting plates 3, discharging mechanisms 4 and test mechanisms 5, wherein the first connecting rods 1 are uniformly arranged between the connecting plates 2, the supporting plates 3 are arranged at the tops of the connecting plates 2, the discharging mechanisms 4 are connected between the supporting plates 3, and the test mechanisms 5 are arranged on the discharging mechanisms 4.

Discharge mechanism 4 is connected with discharge frame 41 between the backup pad 3 including discharge frame 41, first connection frame 42, sliding connection pole 43, sliding plug board 44 and first spring 45, both sides all are equipped with first connection frame 42 around discharge frame 41 downside left part, and equal sliding connection has sliding connection pole 43 on first connection frame 42, is equipped with sliding plug board 44 between sliding connection pole 43 the right side, all is equipped with first spring 45 between sliding connection pole 43 and the first connection frame 42.

The testing mechanism 5 comprises a second connecting frame 51, a sliding testing plate 52 and a second spring 53, wherein the front side and the rear side of the right part of the emptying frame 41 are both connected with the second connecting frame 51, the sliding testing plate 52 is connected between the second connecting frames 51 in a sliding manner, and the second spring 53 is arranged between the front side and the rear side of the right part of the sliding testing plate 52 and the second connecting frame 51.

When people need to test the capacitive touch screen, the capacitive touch screen is placed in the material placing frame 41, the sliding test plate 52 moves leftwards to test the capacitive touch screen, the second spring 53 is compressed, after the test is completed, the sliding test plate 52 is loosened, the sliding test plate 52 is driven to move rightwards to reset under the action of the second spring 53, the sliding connecting rod 43 moves leftwards to drive the sliding material blocking plate 44 to move leftwards, the first spring 45 is stretched, the capacitive touch screen drops downwards to discharge materials, the hand is loosened, and under the action of the first spring 45, the sliding connecting rod 43 and the sliding material blocking plate 44 are driven to move rightwards to reset.

Example 2

On the basis of embodiment 1, as shown in fig. 4 to 8, the intermittent feeding mechanism 6 is further included, the intermittent feeding mechanism 6 includes a material storage frame 61, a sliding material receiving plate 62, a third spring 63, a rotating plate 64, a sliding clamping plate 65, a fourth spring 66 and a clamping blocking plate 67, the material storage frame 61 is disposed at the left portion of the material storage frame 41, the sliding material receiving plate 62 is slidably connected to the material storage frame 61, the third springs 63 are disposed between the front and rear sides of the bottom of the sliding material receiving plate 62 and the material storage frame 61, the clamping blocking plate 67 is connected to the front and rear sides of the material storage frame 41, the rotating plate 64 is rotatably connected to the front and rear sides of the upper portion of the material storage frame 41, the sliding clamping plate 65 is slidably connected to the upper portion of the rotating plate 64, and the fourth spring 66 is disposed between the outer side of the sliding clamping plate 65 and the rotating plate 64.

When people need to load materials, firstly, the capacitive touch screen is placed on the sliding material receiving plate 62, due to gravity, the sliding material receiving plate 62 moves downwards, the third spring 63 is compressed, then the rotating plate 64 rotates anticlockwise to drive the sliding clamping plate 65 and the fourth spring 66 to rotate anticlockwise, under the action of the clamping blocking plate 67, the sliding clamping plate 65 moves inwards to compress the fourth spring 66, when the rotating plate 64, the sliding clamping plate 65 and the fourth spring 66 rotate to be horizontal, the clamping blocking plate 67 is separated from the sliding clamping plate 65, under the action of the fourth spring 66, the sliding clamping plate 65 is driven to move outwards to be attached to the front side wall and the rear side wall of the capacitive touch screen, then the rotating plate 64 rotates clockwise to drive the sliding clamping plate 65 and the fourth spring 66 to rotate clockwise, when the clamping blocking plate 67 is contacted with the sliding clamping plate 65 again, drive the slip clamp plate 65 and move to the inboard, make the fourth spring 66 compressed, make the slip clamp plate 65 press from both sides the capacitive touch screen tightly, drive the capacitive touch screen afterwards and be vertical state, separate when pressing from both sides tight holding plate 67 and slip clamp plate 65, under the effect of fourth spring 66, it moves to the outside and loosens the capacitive touch screen to drive slip clamp plate 65, the capacitive touch screen then drops downwards, can realize the effect of material loading like this, along with the continuous reduction of capacitive touch screen, under the effect of third spring 63, it resets to drive slip material receiving plate 62 slowly rebound.

Still including automatic mechanism 7 that comes in and go out, automatic mechanism 7 that comes in and goes out is including gyro wheel 71, wire winding sliding sleeve 72, stay cord 73, first rack 74 and first straight gear 75, both sides all are connected with wire winding sliding sleeve 72 around the blowing frame 41 middle part, the equal rotary type in both sides is connected with two gyro wheels 71 around the storage frame 61 left part, all be equipped with first straight gear 75 on the rotor plate 64, both sides all are connected with first rack 74 around the slip plug board 44, first rack 74 and the meshing of first straight gear 75, both sides all are connected with stay cord 73 around the slip test panel 52 right part, stay cord 73 all walks around wire winding sliding sleeve 72 and gyro wheel 71, stay cord 73 end all is connected with first rack 74.

When the sliding plugging plate 44 moves leftwards to drive the first rack 74 to move leftwards, the pull rope 73 is loosened under the action of the second spring 53, the sliding test plate 52 is driven to move rightwards to loosen the previous capacitive touch screen, so that the previous capacitive touch screen falls downwards, the first rack 74 moves leftwards to drive the first straight gear 75 and the rotating plate 64 to rotate, further, the sliding clamping plate 65 clamps the next capacitive touch screen, when the sliding plugging plate 44 moves rightwards to drive the first rack 74 to move rightwards, the pull rope 73 is pulled, meanwhile, the first straight gear 75 and the rotating plate 64 are driven to rotate and reset, the next capacitive touch screen is driven to fall into the discharging frame 41, meanwhile, the sliding test plate 52 is driven to move leftwards to detect the capacitive touch screen, and the automatic interval feeding and detection effects can be achieved by repeating the above operations.

Still including conveying receiving mechanism 8, conveying receiving mechanism 8 is connected with conveying assembly 81 including conveying subassembly 81, connecing material frame 82, clamping connecting rod 83 and fifth spring 84, the rotary type between the backup pad 3, and conveying subassembly 81 right side is equipped with and connects material frame 82, connects material frame 82 sliding type to be connected with clamping connecting rod 83, and clamping connecting rod 83 left portion front and back both sides and connect and all be equipped with fifth spring 84 between the material frame 82.

When discharging is needed, the clamping connecting rod 83 is moved rightwards, the capacitive touch screen is enabled to fall downwards, the fifth spring 84 is compressed, then the hand is loosened, the clamping connecting rod 83 is driven to move leftwards to reset under the action of the fifth spring 84, when the capacitive touch screen needs to be taken out of the material receiving frame 82, the conveying assembly 81 is rotated, the material receiving frame 82, the clamping connecting rod 83 and the fifth spring 84 are enabled to move rightwards, the clamping connecting rod 83 is moved rightwards, the fifth spring 84 is compressed, all the capacitive touch screens are taken out, then the hand is loosened under the action of the fifth spring 84, the clamping connecting rod 83 is driven to move leftwards to reset, meanwhile, the conveying assembly 81 is driven to rotate reversely to reset, and the material receiving frame 82, the clamping connecting rod 83 and the fifth spring 84 are driven to move leftwards to reset.

Still including automatic drive mechanism 9, automatic drive mechanism 9 is including driving board 91, location sliding sleeve 92, second rack 93 and second straight-teeth gear 94, sliding test board 52 right part front and back both sides all are connected with driving board 91, 3 left parts in backup pad all are equipped with location sliding sleeve 92, all sliding connection has second rack 93 on the sliding sleeve 92 of location, second rack 93 right side is connected with driving board 91, both sides all are connected with second straight-teeth gear 94 around the conveying subassembly 81 left part, second straight-teeth gear 94 and the meshing of second rack 93.

When the sliding test plate 52 moves rightwards, the driving plate 91 and the second rack 93 are driven to move rightwards, the driving plate 91 drives the clamping connecting rod 83 to move rightwards firstly, and then the capacitive touch screen drops downwards, when the second rack 93 moves rightwards and is meshed with the second straight gear 94, the second straight gear 94 and the conveying assembly 81 are driven to rotate, the material receiving frame 82 is driven to move rightwards, meanwhile, the clamping connecting rod 83 is driven to clamp the capacitive touch screen, the sliding test plate 52 moves leftwards to drive the driving plate 91 and the second rack 93 to move leftwards to reset, the second straight gear 94 and the conveying assembly 81 are driven to rotate reversely, and then the material receiving frame 82 and the clamping connecting rod 83 are driven to move leftwards to reset.

The conveying assembly is characterized by further comprising a blocking mechanism 10, wherein the blocking mechanism 10 comprises a fixed sliding sleeve 101, sliding baffles 102 and sixth springs 103, the front side and the rear side of the conveying assembly 81 are connected with the fixed sliding sleeve 101, the sliding baffles 102 are connected between the fixed sliding sleeves 101 in a sliding mode, and the sixth springs 103 are arranged between the front side and the rear side of the upper portion of each sliding baffle 102 and the fixed sliding sleeve 101.

In order to prevent the material receiving frame 82 and the clamping connecting rod 83 from moving in two directions, the sliding baffle plate 102 is driven to move downwards to clamp and fix the material receiving frame 82 under the action of the sixth spring 103.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (6)

1. An automatic test equipment for a capacitive touch screen is characterized by comprising:

the connecting device comprises first connecting rods (1) and connecting plates (2), wherein the first connecting rods (1) are uniformly arranged between the connecting plates (2);

the top parts of the supporting plates (3) and the connecting plates (2) are provided with the supporting plates (3);

the discharging mechanisms (4) are connected between the supporting plates (3);

the testing mechanism (5) is arranged on the discharging mechanism (4);

drop feed mechanism (4) including:

the discharging frames (41) are connected between the supporting plates (3);

the first connecting frames (42) are arranged on the two sides of the discharging frame (41);

the sliding connecting rods (43) are connected to the first connecting frames (42) in a sliding mode;

a sliding plugging plate (44), wherein a sliding plugging plate (44) is arranged between one sides of the sliding connecting rods (43);

the first springs (45) are arranged between the sliding connecting rod (43) and the first connecting frame (42);

the testing mechanism (5) comprises:

the two sides of the right part of the discharging frame (41) are connected with the second connecting frame (51);

the sliding test plate (52) is connected between the second connecting frames (51) in a sliding way;

and the second springs (53) are arranged between the two sides of the sliding test plate (52) and the second connecting frame (51).

2. The automatic test equipment for the capacitive touch screen according to claim 1, further comprising an intermittent feeding mechanism (6), wherein the intermittent feeding mechanism (6) comprises:

the storage frame (61), one side of the emptying frame (41) is provided with the storage frame (61);

the sliding material receiving plate (62) is connected to the storage frame (61) in a sliding mode;

third springs (63), wherein the third springs (63) are arranged between the two sides of the bottom of the sliding material receiving plate (62) and the material storage frame (61);

the clamping stop plates (67) are connected to both sides of the discharging frame (41);

the two sides of the discharging frame (41) are rotatably connected with the rotating plates (64);

the sliding clamping plates (65) are connected with the rotating plates (64) in a sliding manner;

and fourth springs (66) are arranged between the outer sides of the sliding clamping plates (65) and the rotating plates (64).

3. The automatic test equipment for the capacitive touch screen according to claim 2, further comprising an automatic access mechanism (7), wherein the automatic access mechanism (7) comprises:

the winding sliding sleeve (72) is connected with both sides of the middle part of the discharging frame (41);

two idler wheels (71) are rotatably connected to both sides of the left part of the storage frame (61);

the rotating plate (64) is provided with a first straight gear (75);

the two sides of the sliding plugging plate (44) are both connected with first racks (74), and the first racks (74) are meshed with the first straight gear (75);

stay cord (73), slide test board (52) right part both sides all are connected with stay cord (73), and wire winding sliding sleeve (72) and gyro wheel (71) are all walked around in stay cord (73), and stay cord (73) end all is connected with first rack (74).

4. The automatic test equipment for the capacitive touch screen is characterized by further comprising a conveying material receiving mechanism (8), wherein the conveying material receiving mechanism (8) comprises:

the conveying assembly (81) is rotatably connected between the supporting plates (3);

a receiving frame (82), wherein the receiving frame (82) is arranged on one side of the conveying assembly (81);

the clamping connecting rod (83) is connected with the material receiving frame (82) in a sliding manner;

and fifth springs (84) are arranged between the left two sides of the clamping connecting rod (83) and the material receiving frame (82).

5. The automatic test equipment for the capacitive touch screen according to claim 4, further comprising an automatic driving mechanism (9), wherein the automatic driving mechanism (9) comprises:

the driving plates (91) are connected to the two sides of the right part of the sliding test plate (52);

the left part of the support plate (3) is provided with a positioning sliding sleeve (92);

the positioning sliding sleeve (92) is connected with a second rack (93) in a sliding manner, and the right side of the second rack (93) is connected with the driving plate (91);

and both sides of the second straight gear (94) and the conveying assembly (81) are connected with the second straight gear (94), and the second straight gear (94) is meshed with the second rack (93).

6. The automatic test equipment for the capacitive touch screen according to claim 5, further comprising a blocking mechanism (10), wherein the blocking mechanism (10) comprises:

the two sides of the conveying assembly (81) are both connected with the fixed sliding sleeve (101);

the sliding baffle (102) is connected between the fixed sliding sleeves (101) in a sliding way;

and the sixth spring (103) is arranged between the two sides of the upper part of the sliding baffle (102) and the fixed sliding sleeve (101).

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