CN116296271B - Touch screen infrared receiving tube debugging equipment and debugging method - Google Patents

Abstract

The invention discloses touch screen infrared receiving tube debugging equipment and a debugging method, which relate to the field of debugging equipment and comprise a detection column, wherein the lower surface of the detection column is provided with a plurality of positioning grooves, the distances among the positioning grooves are identical, and a detection rod is arranged in each positioning groove. According to the touch screen infrared receiving tube debugging equipment and the touch screen infrared receiving tube debugging method, the detection rods at different positions are sequentially pressed downwards to move, so that the positions of different abscissas and longitudes can be detected, the detection rods move downwards, the pressing spherical caps move downwards, the pressing springs are in a compressed state, the spherical caps are located in the grooves, the tops of the grooves are still exposed, when the pressing device presses one spherical cap, the previous spherical cap is rebounded due to the pressing springs, the positioning detection is convenient one by one, and the touch screen infrared receiving tube debugging equipment is more convenient to use and higher in accuracy.

Description

Touch screen infrared receiving tube debugging equipment and debugging method

Technical Field

The invention relates to the field of debugging equipment, in particular to touch screen infrared receiving tube debugging equipment and a debugging method.

Background

The touch screen infrared technology is a coordinate positioning technology that infrared transmitting tubes and infrared receiving tubes are arranged around a screen to form an infrared wide matrix, then the infrared wide matrix is scanned and detected continuously in the horizontal direction and the vertical direction respectively, when a touch object blocks infrared light, position judgment is carried out, when a user touches the screen, fingers can block the outer line passing through the horizontal direction and the vertical direction of the position, the change of optical signals causes the change of electric signals output by a photoelectric detection circuit, and the position of a touch point on the screen can be positioned through point signal processing.

The infrared touch screen needs to be accurately debugged before being used, positioning of the infrared receiving tube is ensured to be more accurate, in the debugging process, the positions of the infrared transmitting tube and the infrared receiving tube which are in one position need to be ensured to correspond accurately, and the common single debugging mode is adopted, so that the debugging efficiency is reduced due to the fact that the number of the infrared transmitting tubes and the number of the infrared receiving tubes are large, and the time is required to be longer.

Disclosure of Invention

The invention mainly aims to provide touch screen infrared receiving tube debugging equipment and a debugging method, which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the touch screen infrared receiving tube debugging equipment comprises a detection column, wherein the lower surface of the detection column is provided with a plurality of positioning grooves, the distances among the positioning grooves are completely the same, a detection rod is installed in each positioning groove, two infrared receivers are installed on the surface of each detection rod, the included angle of each infrared receiver is a right angle, and the two infrared receivers correspond to two infrared emitters of the detected equipment respectively;

the upper surface of detecting the post has seted up a plurality of recesses, the inside intercommunication of recess and constant head tank, the internally mounted of recess has compression spring, compression spring cup joints the surface at the measuring rod, the top fixed mounting of measuring rod has spherical cap, compression spring's one end is fixed on the surface of spherical cap, compression spring's the other end is fixed at the inner wall of recess, press device is installed to the top of detecting the post.

The top fixed mounting of spherical cap has the signal lamp, the height of spherical cap is the same with the degree of depth of recess, the internal diameter of recess and the external radial adaptation of spherical cap, the quantity of detecting the post is provided with a plurality of, and is a plurality of detecting the post passes through installation device to be fixed, a plurality of detecting the pole constitutes the detection matrix.

The mounting device comprises a transverse groove, wherein the transverse groove is formed in one side of the detection column, a cross rod is fixedly mounted on the other side of the detection column, two adjacent cross rods on the surface of the detection column are inserted into the transverse groove, the cross section of the transverse groove is trapezoidal, the cross section of the transverse groove is close to the center of the detection column and is long in bottom, and the cross section of the cross groove is far away from the center of the detection column and is short in bottom.

The pressing device comprises a guide rail column, a mounting groove is formed in the guide rail column, a guide rail rack is mounted in the mounting groove, a moving gear is meshed with the surface of the guide rail rack, a driving motor is mounted in the mounting groove, the moving gear is sleeved on an output shaft of the driving motor, and a pressing rod is fixedly mounted in the moving gear.

The lateral wall of driving motor hugs closely in the inside of mounting groove, the internally mounted of mounting groove has two transverse baffles, two distance between the transverse baffles and the diameter looks adaptation of push rod, the diameter of removal gear is greater than the distance between two transverse baffles, install positioner between guide rail post and the detection post.

The positioning device comprises four positioning rods, the number of the positioning rods is four, the four positioning rods are respectively fixed at four corners of the guide rail column, four positioning holes are formed in the surface of the detection column, the positions of the four positioning holes are matched with the positions of the positioning rods, the positioning rods are clamped in the positioning holes, and the length of the positioning rods is larger than the depth of the positioning holes.

The surface mounting of detecting the post has location fixing device, inside one side fixed mounting of location fixing device has the draw-in lever, the shape of draw-in lever and the inner wall shape adaptation of transverse groove, the draw-in lever card is in the inside of transverse groove, location fixing device's inside opposite side card is equipped with the draw-in groove, the horizontal pole card is in the inside of draw-in groove.

The positioning and fixing device comprises two side plates of a first transverse plate, the first transverse plate and the two side plates are installed through hinges, the first transverse plate and the two side plates form a U shape, a second transverse plate is installed between the side plates on two sides, and a fixing device is installed between the second transverse plate and the two side plates.

The fixing device comprises two magnetic suction plates, the two side magnetic suction plates are arranged at two ends of the transverse plate II, the surfaces of the two side plates are provided with magnetism, and the two magnetic suction plates are adsorbed on the surfaces of the two side plates.

A touch screen infrared receiving tube debugging method,

s1, selecting a certain number of detection columns according to equipment to be debugged;

s2, clamping the cross bars in the cross grooves so that a plurality of detection columns form a detection matrix;

s3, clamping a clamping rod on the first transverse plate in the transverse groove to enable the first transverse plate and the two side plates to form a U shape, clamping the transverse rod in the clamping groove of the second transverse plate, and enabling the magnetic suction plate to be adsorbed on the surfaces of the two side plates to enable the magnetic suction plate to form a detection frame;

s4, clamping the positioning rod in the positioning hole and starting the driving motor;

s5, the driving motor drives the pressing rod to move, and the detection rod is pressed downwards, so that the infrared receiver corresponds to the detected infrared receiving position of the touch screen;

s6, sequentially detecting a plurality of detection columns.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the detection rods at different positions are sequentially pressed downwards to move, so that different positions of the horizontal coordinates can be detected, the detection rods move downwards, the spherical cap is pressed downwards, the compression springs are in a compressed state, the spherical cap is positioned in the groove, but still the top of the groove is exposed, when the pressing device presses one spherical cap, the former spherical cap is rebounded due to the compression springs, the positioning detection is facilitated one by one, and the use is more convenient and the accuracy is higher.

2. According to the invention, the cross bars, the transverse grooves and the detection columns are arranged, the cross bars on the surfaces of the adjacent detection columns are spliced in the transverse grooves, the cross sections of the transverse grooves are trapezoidal, the cross sections of the cross grooves are long bottoms and short bottoms, which are far away from the centers of the detection columns, are arranged near the centers of the detection columns, and when the detection columns are installed, the cross bars are clamped in the inner parts of the transverse grooves, so that a plurality of detection columns can be firmly connected, and the detection columns are more convenient to install, quite convenient to detach and adapt to different touch screens.

3. According to the invention, by arranging the positioning rod and the positioning hole, the length of the positioning rod is larger than the depth of the positioning hole, whether the signal lamp is lightened or not can be clearly seen, when the positioning rod is clamped in the positioning hole, the guide rail column can be ensured to detect one detection column, the position cannot deviate when the detection is ensured, and the detection accuracy is ensured to be higher.

4. According to the invention, the magnetic suction plates are arranged, the magnetism is arranged on the surfaces of the side plates, the two magnetic suction plates are adsorbed on the surfaces of the two side plates, the magnetic suction plates are utilized for installation, the positions of the transverse plates II can be moved for detected equipment with different lengths and widths, the size of the frame can be changed at the moment, and the magnetic suction plates are convenient to install and can be adapted to any different detected equipment.

5. According to the invention, the signal lamp is arranged at the top of the spherical cap, the signal lamp is fixedly arranged at the top of the spherical cap, and when the infrared receiver receives the signal of the infrared transmitter, the signal lamp emits light, so that the position problem in debugging problem or the position of the quality of the signal lamp can be obviously detected.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a touch screen infrared receiving tube debugging device and a debugging method of the invention;

FIG. 2 is a schematic diagram of the position structure of a magnetic attraction plate of the touch screen infrared receiving tube debugging equipment and the debugging method of the invention;

FIG. 3 is a schematic diagram of a transverse slot position part of a touch screen infrared receiving tube debugging device and a debugging method according to the present invention;

FIG. 4 is a schematic diagram of a portion of the structure of an infrared receiver of a touch screen infrared receiver debugging device and method according to the present invention;

FIG. 5 is a schematic diagram of a portion of a structure of a groove of a touch screen infrared receiving tube debugging device and a debugging method according to the present invention;

FIG. 6 is a schematic diagram of a part of the structure of a clamping slot of a touch screen infrared receiving tube debugging device and a debugging method according to the present invention;

FIG. 7 is a schematic view of a portion of the structure of a clamping lever of a touch screen infrared receiving tube debugging device and a debugging method according to the present invention;

FIG. 8 is a schematic view of a positioning rod position part of a touch screen infrared receiving tube debugging device and a debugging method according to the present invention;

FIG. 9 is a schematic view of a portion of the structure of a rack of a guide rail for a touch screen infrared receiver tube debugging device and a debugging method according to the present invention;

fig. 10 is a schematic diagram of a cross-sectional structure of a position of a rail column of a touch screen infrared receiving tube debugging device and a debugging method according to the present invention.

In the figure: 1. a detection column; 2. a positioning groove; 3. a detection rod; 4. an infrared receiver; 5. a groove; 6. a compression spring; 7. a spherical cap; 8. a signal lamp; 9. a transverse groove; 10. a cross bar; 11. a guide rail column; 12. a mounting groove; 13. a guide rail rack; 14. a moving gear; 15. a driving motor; 16. pressing a pressing rod; 17. a transverse baffle; 18. a positioning rod; 19. positioning holes; 20. a clamping rod; 21. a clamping groove; 22. a transverse plate I; 23. a side plate; 24. a hinge; 25. a transverse plate II; 26. a magnetic suction plate.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-10, the infrared detection device comprises a detection column 1, wherein the lower surface of the detection column 1 is provided with a plurality of positioning grooves 2, the distances among the positioning grooves 2 are completely the same, the position distances among the positioning grooves 2 are fixed and are used for detecting the distance among infrared emitters, a detection rod 3 is arranged in the positioning groove 2, two infrared receivers 4 are arranged on the surface of the detection rod 3, and the included angles of the two infrared receivers 4 are right angles and respectively correspond to the two infrared emitters of the detected device;

when the detection rod 3 moves to the lower position, the infrared receiver 4 is aligned with the position of the infrared emitter, the infrared receiver 4 can receive the signal of the infrared emitter, and when the signal is received, the infrared emitter can be normally used, the position can be ensured to be on the same straight line, and if the position is inaccurate, the position of the infrared emitter can be relatively moved, so that the debugging function is realized;

the upper surface of detect post 1 has seted up a plurality of recesses 5, recess 5 and constant head tank 2's inside intercommunication, the internally mounted of recess 5 has compression spring 6, and compression spring 6 is located the inside of recess 5 completely, compression spring 6 cup joints the surface at detection pole 3, the top fixed mounting of detection pole 3 has spherical cap 7, when detection pole 3 moves down, will press spherical cap 7 for compression spring 6 is in the state of compression, leaves corresponding spherical cap 7 when detection pole 3, and spherical cap 7 will pop out again, the surface at spherical cap 7 is fixed to the one end of compression spring 6, the inner wall at recess 5 is fixed to the other end of compression spring 6, press device is installed to the top of detect post 1.

The pressing device is started, the detection rod 3 can be enabled to move downwards, the detection rods 3 at different positions can be sequentially pressed downwards to move, at this time, the positions of different abscissas and longitudes can be detected, the detection rod 3 moves downwards, the pressing spherical cap 7 moves downwards, the compression spring 6 is in a compressed state, the spherical cap 7 is located inside the groove 5, but the top of the groove 5 can still be exposed, when the pressing device presses one spherical cap 7, the previous spherical cap 7 rebounds due to the compression spring 6, positioning detection is facilitated one by one, and the use is more convenient and the accuracy is higher.

The top fixed mounting of spherical cap 7 has signal lamp 8, and when infrared receiver 4 received infrared transmitter's signal, signal lamp 8 will send out light, the height of spherical cap 7 is the same with the degree of depth of recess 5, the external radial adaptation of the internal diameter of recess 5 and spherical cap 7, spherical cap 7 can enter into the inside of recess 5 completely, the quantity of detecting post 1 is provided with a plurality of, and is a plurality of detecting post 1 is fixed through installation device, and a plurality of detecting rod 3 constitutes the detection matrix, and the position that the matrix detected is more.

The mounting device comprises a transverse groove 9, the transverse groove 9 is formed in one side of the detection column 1, a cross rod 10 is fixedly mounted on the other side of the detection column 1, two adjacent cross rods 10 on the surface of the detection column 1 are inserted into the transverse groove 9, the cross section of the transverse groove 9 is trapezoidal, the center of the detection column 1 is arranged to be long bottom, the center of the detection column 1 is far away from the short bottom, and when the detection column is mounted, the cross rod 10 is clamped in the inner portion of the transverse groove 9, so that the detection columns 1 are firmly connected, and the detection column is more convenient to mount and disassemble.

The pressing device comprises a guide rail column 11, a mounting groove 12 is formed in the guide rail column 11, a guide rail rack 13 is mounted in the mounting groove 12, a moving gear 14 is meshed with the surface of the guide rail rack 13, a driving motor 15 is mounted in the mounting groove 12, the moving gear 14 is sleeved on an output shaft of the driving motor 15, and a pressing rod 16 is fixedly mounted in the moving gear 14.

When the ball-shaped cap 7 is used, the driving motor 15 is started first, the output shaft of the driving motor rotates to drive the moving gear 14 to rotate, the moving gear 14 rolls and moves on the surface of the guide rail rack 13 in the rotating process, the position of the pressing rod 16 can be changed, and the ball-shaped cap 7 can enter the groove 5 by using direct pressure because the surface of the ball-shaped cap 7 is spherical.

The lateral wall of driving motor 15 is hugged closely in the inside of mounting groove 12, and driving motor 15 is spacing in the inside of mounting groove 12, just can not rotate, can guarantee the removal of pressing pole 16, the internally mounted of mounting groove 12 has two diaphragm plates 17, two distance between the diaphragm plates 17 and the diameter looks adaptation of pressing pole 16, and the distance between the diaphragm plates 17 can be spacing pressing pole 16's removal, the diameter of movable gear 14 is greater than the distance between two diaphragm plates 17, and movable gear 14 just can not drop from two diaphragm plates 17 at the in-process of removal, guarantees that the drive is more stable, install positioner between guide rail post 11 and the detection post 1.

The positioning device comprises positioning rods 18, the number of the positioning rods 18 is four, the four positioning rods are respectively fixed at four corners of the guide rail column 11, four positioning holes 19 are formed in the surface of the detection column 1, the positions of the four positioning holes 19 are matched with those of the positioning rods 18, the positioning rods 18 are clamped in the positioning holes 19, the length of each positioning rod 18 is larger than the depth of each positioning hole 19, when the positioning rods 18 are clamped in the positioning holes 19, the guide rail column 11 can be ensured to detect one detection column 1, deviation of the positions can not be generated when the detection is ensured, and the detection accuracy is ensured to be higher.

The surface mounting of detection post 1 has location fixing device, inside one side fixed mounting of location fixing device has clamping lever 20, the shape of clamping lever 20 and the inner wall shape adaptation of cross slot 9, clamping lever 20 card is in the inside of cross slot 9, location fixing device's inside opposite side card is equipped with draw-in groove 21, horizontal pole 10 card is in the inside of draw-in groove 21, convenient location fixing device's installation.

The positioning and fixing device comprises two side plates 23 of a first transverse plate 22, the first transverse plate 22 and the two side plates 23 are installed through hinges 24, the angle between the side plates 23 and the first transverse plate 22 can be opened and closed randomly, the first transverse plate 22 and the two side plates 23 form a U shape, when the installation is just started, the two side plates 23 and the first transverse plate 22 need to be ensured to form a straight line for convenient installation, two transverse plates 25 are installed between the two side plates 23, a fixing device is installed between the two transverse plates 25 and the two side plates 23, and equipment to be detected can be clamped inside the positioning and fixing device by using the fixing device for installation.

The fixing device comprises two magnetic attraction plates 26, the two magnetic attraction plates 26 are arranged at two ends of the transverse plate II 25, magnetism is arranged on the surfaces of the two side plates 23, the two magnetic attraction plates 26 are adsorbed on the surfaces of the two side plates 23, the magnetic attraction plates 26 are used for installation, the positions of the transverse plate II 25 can be moved for detected equipment with different lengths and widths, at the moment, the framed size can be changed, and the magnetic attraction plates 26 are convenient to install and can be adapted to any different detected equipment.

A touch screen infrared receiving tube debugging method,

s1, selecting a certain number of detection columns 1 according to equipment to be debugged;

s2, clamping the cross rod 10 in the cross groove 9 so that a plurality of detection columns 1 form a detection matrix;

s3, clamping the clamping rod 20 on the first transverse plate 22 in the transverse groove 9 to enable the first transverse plate 22 and the two side plates 23 to form a U shape, clamping the transverse rod 10 in the clamping groove 21 of the second transverse plate 25, and adsorbing the magnetic suction plate 26 on the surfaces of the two side plates 23 to enable the two side plates to form a detection frame;

s4, clamping the positioning rod 18 in the positioning hole 19 and starting the driving motor 15;

s5, the driving motor 15 drives the pressing rod 16 to move, and the detection rod 3 is pressed downwards, so that the infrared receiver 4 corresponds to the detected touch screen infrared receiving position;

s6, sequentially detecting a plurality of detection columns 1.

It should be noted that, when the touch screen infrared receiving tube debugging device and the debugging method are used, a certain number of detection columns 1 are selected according to the device to be debugged, the cross bar 10 is clamped in the transverse groove 9, so that a plurality of detection columns 1 form a detection matrix device, the clamping rod 20 on the transverse plate I22 is clamped in the transverse groove 9, the transverse plate I22 and the two side plates 23 form a U shape, the cross bar 10 is clamped in the clamping groove 21 of the transverse plate II 25, the magnetic attraction plate 26 is adsorbed on the surfaces of the two side plates 23, so that the surfaces of the two side plates 23 form a detection frame, the positioning rod 18 is clamped in the positioning hole 19, when the positioning rod 18 is clamped in the positioning hole 19, the guide rail column 11 can ensure that one detection column 1 is detected, no deviation is generated in position when the detection is ensured, the detection accuracy is ensured to be higher, the driving motor 15 is started, the output shaft of the driving motor 15 rotates to drive the moving gear 14 to rotate, the moving gear 14 rolls and moves on the surface of the guide rail rack 13 in the rotating process, the position of the pressing rod 16 can be changed, and the spherical cap 7 can enter the groove 5 by using direct pressure because the surface of the spherical cap 7 is spherical, the driving motor 15 is limited in the mounting groove 12 and cannot rotate, the movement of the pressing rod 16 can be ensured, the detecting rod 3 moves downwards, the pressing spherical cap 7 moves downwards, the compressing spring 6 is in a compressed state, the spherical cap 7 is positioned in the groove 5, but still exposes out of the top of the groove 5, when the pressing device presses one spherical cap 7, the previous spherical cap 7 can rebound due to the compressing spring 6, the positioning detection is convenient, the use is more convenient, and the accuracy is higher.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a touch-sensitive screen infrared receiving tube debugging equipment which characterized in that: the detection device comprises a detection column (1), wherein a plurality of positioning grooves (2) are formed in the lower surface of the detection column (1), the distances among the positioning grooves (2) are identical, a detection rod (3) is arranged in the positioning grooves (2), two infrared receivers (4) are arranged on the surface of the detection rod (3), the included angle of the two infrared receivers (4) is a right angle, and the two infrared emitters correspond to two infrared emitters of detected equipment respectively;

the upper surface of the detection column (1) is provided with a plurality of grooves (5), the grooves (5) are communicated with the inside of the positioning groove (2), compression springs (6) are installed in the grooves (5), the compression springs (6) are sleeved on the surface of the detection rod (3), the top of the detection rod (3) is fixedly provided with a spherical cap (7), one end of each compression spring (6) is fixed on the surface of the corresponding spherical cap (7), the other end of each compression spring (6) is fixed on the inner wall of the corresponding groove (5), and a pressing device is installed above the detection column (1);

the pressing device comprises a guide rail column (11), a mounting groove (12) is formed in the guide rail column (11), a guide rail rack (13) is mounted in the mounting groove (12), a movable gear (14) is meshed with the surface of the guide rail rack (13), a driving motor (15) is mounted in the mounting groove (12), the movable gear (14) is sleeved on an output shaft of the driving motor (15), and a pressing rod (16) is fixedly mounted in the movable gear (14).

2. The touch screen infrared receiving tube debugging device according to claim 1, wherein: the top fixed mounting of spherical cap (7) has signal lamp (8), the height of spherical cap (7) is the same with the degree of depth of recess (5), the internal diameter of recess (5) is with the external radial adaptation of spherical cap (7), the quantity of detecting post (1) is provided with a plurality ofly, and a plurality of detecting post (1) are fixed through installation device, a plurality of detecting rod (3) constitution detects the matrix.

3. The touch screen infrared receiving tube debugging device according to claim 2, wherein: the mounting device comprises a transverse groove (9), wherein the transverse groove (9) is formed in one side of the detection column (1), a cross rod (10) is fixedly mounted on the other side of the detection column (1), two adjacent cross rods (10) on the surface of the detection column (1) are inserted into the transverse groove (9), the cross section of the transverse groove (9) is trapezoidal, the cross section of the cross rod is close to the center of the detection column (1) and is long-bottomed, and the cross rod is far away from the center of the detection column (1).

4. The touch screen infrared receiving tube debugging device according to claim 1, wherein: the side wall of driving motor (15) is hugged closely in the inside of mounting groove (12), the internally mounted of mounting groove (12) has two transverse baffles (17), two the distance between transverse baffles (17) and the diameter looks adaptation of pressing pole (16), the diameter of movable gear (14) is greater than the distance between two transverse baffles (17), install positioner between guide rail post (11) and detection post (1).

5. The touch screen infrared receiving tube debugging device according to claim 4, wherein: the positioning device comprises positioning rods (18), the number of the positioning rods (18) is four, the four positioning rods are respectively fixed at four corners of the guide rail column (11), four positioning holes (19) are formed in the surface of the detection column (1), the positions of the four positioning holes (19) are matched with the positions of the positioning rods (18), the positioning rods (18) are clamped in the positioning holes (19), and the length of each positioning rod (18) is larger than the depth of each positioning hole (19).

6. A touch screen infrared receiving tube debugging device according to claim 3, wherein: the surface mounting of detection post (1) has location fixing device, inside one side fixed mounting of location fixing device has draw-in lever (20), the shape of draw-in lever (20) and the inner wall shape adaptation of cross slot (9), draw-in lever (20) card is in the inside of cross slot (9), location fixing device's inside opposite side card is equipped with draw-in slot (21), horizontal pole (10) card is in the inside of draw-in slot (21).

7. The touch screen infrared receiving tube debugging device of claim 6, wherein: the positioning and fixing device comprises two side plates (23) of a first transverse plate (22), the first transverse plate (22) and the two side plates (23) are installed through hinges (24), the first transverse plate (22) and the two side plates (23) form a U shape, a second transverse plate (25) is installed between the side plates (23) on two sides, and the fixing device is installed between the second transverse plate (25) and the two side plates (23).

8. The touch screen infrared receiving tube debugging device of claim 7, wherein: the fixing device comprises two magnetic suction plates (26), wherein the two magnetic suction plates (26) are arranged at two ends of a transverse plate II (25), magnetism is arranged on the surfaces of the two side plates (23), and the two magnetic suction plates (26) are adsorbed on the surfaces of the two side plates (23).

9. The debugging method of the touch screen infrared receiving tube debugging device according to claims 1-8, comprising the following debugging steps:

s1, selecting a certain number of detection columns (1) according to equipment to be debugged;

s2, clamping the cross rod (10) in the transverse groove (9) so that a plurality of detection columns (1) form a detection matrix;

s3, clamping a clamping rod (20) on a first transverse plate (22) in a transverse groove (9) to enable the first transverse plate (22) and two side plates (23) to form a U shape, clamping a transverse rod (10) in a clamping groove (21) of a second transverse plate (25), and adsorbing a magnetic suction plate (26) on the surfaces of the two side plates (23) to enable the transverse rod to form a detection frame;

s4, clamping the positioning rod (18) in the positioning hole (19) and starting the driving motor (15);

s5, a driving motor (15) drives a pressing rod (16) to move, and the detection rod (3) is pressed downwards, so that the infrared receiver (4) corresponds to the detected touch screen infrared receiving position;

s6, sequentially detecting a plurality of detection columns (1).