CN209764162U - Steel mesh tension and pore-forming quality detection equipment - Google Patents

Abstract

The utility model discloses a steel mesh tension and pore-forming quality detection equipment, which comprises a frame, be equipped with the portal frame in the frame, be equipped with three-axis motion platform on the portal frame, the relative inboard of portal frame is equipped with a pair of steel mesh microscope carrier, be equipped with detection mechanism on the three-axis motion platform, detection mechanism is located the top of steel mesh microscope carrier, this detection mechanism includes mounting panel, CCD camera, telescopic cylinder, pneumatic finger and tensile force detector, CCD camera and telescopic cylinder are fixed in on the mounting panel, telescopic cylinder is located one side of CCD camera, its flexible end is equipped with pneumatic finger, tensile force detector presss from both sides tightly on pneumatic finger, the utility model discloses can automize pore-forming and detect the tension of steel mesh and the quality simultaneously, avoid the uncertain factor that personnel detected, improve detection efficiency greatly, carry out strict handle control to the steel mesh quality; the online detection can be carried out, and the data analysis and judgment can be carried out constantly.

Description

Steel mesh tension and pore-forming quality detection equipment

Technical Field

The utility model relates to a steel mesh check out test set technical field especially relates to a steel mesh tension and pore-forming quality check out test set.

Background

The steel mesh is actually a thin steel sheet and is commonly used in the fields of PCB printing and the like. The steel mesh finished product needs to be subjected to tension detection, the steel mesh tension detection generally comprises the steps of testing 5 points, selecting 4 points from the periphery of the steel mesh at the middle point, and determining that the tension of any one point of the 5 points is less than 38N, so that the steel mesh finished product is unqualified; meanwhile, the hole forming quality of the steel mesh is also related to the subsequent printing quality, so that the size of a formed hole needs to be detected.

Carry out tension detection to steel mesh, silk screen etc. on the existing market at present and mainly detect through artifical with the tensiometer, read the numerical value again and detect, inefficiency, some problems such as risk exist in the quality management and control, and the while is more complicated to the detection of trompil size, inefficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel mesh tension and pore-forming quality detection equipment, can detect the tension of the steel mesh and the pore-forming quality simultaneously automatically, avoid the uncertain factor that personnel detected, greatly improve detection efficiency, carry out strict control to the steel mesh quality; the online detection can be carried out, and the data analysis and judgment can be carried out constantly.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a steel mesh tension and pore-forming quality detection equipment, includes the frame, be equipped with the portal frame in the frame, be equipped with three-axis motion platform on the portal frame, the relative inboard of portal frame is equipped with a pair of steel mesh microscope carrier, be equipped with detection mechanism on the three-axis motion platform, detection mechanism is located the top of steel mesh microscope carrier, and this detection mechanism includes mounting panel, CCD camera, telescopic cylinder, pneumatic finger and tension detector, CCD camera and telescopic cylinder are fixed in on the mounting panel, telescopic cylinder is located one side of CCD camera, and its flexible end is equipped with pneumatic finger, tension detector presss from both sides tightly on pneumatic finger.

As a further optimization, the three-axis motion platform comprises an X-axis motion mechanism, a Y-axis motion mechanism and a Z-axis motion mechanism, and the mounting plate can be arranged on the Z-axis motion mechanism in a vertically sliding mode.

As a further optimization, a buffer cylinder is arranged on the Y-axis movement mechanism.

As a further optimization, a light source is arranged below the CCD camera on the mounting plate.

As a further optimization, a machine shell is arranged on the outer side of the machine frame, and a feed inlet for the steel mesh to enter and exit is formed in the machine shell.

As a further optimization, the lower end of the feed port is level with the upper end of the steel mesh carrier.

As a further optimization, the shell is provided with an observation window.

As a further optimization, the upper end of the machine shell is provided with a working indicator lamp.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. The tension of the steel mesh and the quality of the formed hole can be automatically and simultaneously detected, uncertain factors of personnel detection are avoided, the detection efficiency is greatly improved, and the quality of the steel mesh is strictly controlled;

2. The online detection can be carried out, and the data analysis and judgment can be carried out constantly.

Drawings

Fig. 1 is a structural diagram of the present invention.

Fig. 2 is a view showing the internal structure of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

In the figure, 1, a frame; 2. a gantry; 4. a steel mesh carrying platform; 6. a housing; an X-axis motion mechanism; a Y-axis motion mechanism; a Z-axis motion mechanism; 321. a buffer cylinder; 51. mounting a plate; a CCD camera; 53. a light source; 54. a telescopic cylinder; 55. a pneumatic finger; 56. a tensiometer detector; 61. a feed inlet; 62. an observation window; 63. and a working indicator light.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 3, a steel mesh tension and pore-forming quality detection device, which comprises a frame 1, a gantry 2 is arranged on the frame 1, a three-axis motion platform is arranged on the gantry 2, a pair of steel mesh carrying platforms 4 are arranged on the inner side of the gantry 2, a detection mechanism is arranged on the three-axis motion platform and is located above the steel mesh carrying platforms 4, the detection mechanism comprises a mounting plate 51, a CCD camera 52, a telescopic cylinder 54, a pneumatic finger 55 and a tension detector 56, the CCD camera 52 and the telescopic cylinder 54 are fixed on the mounting plate 51, the telescopic cylinder 54 is located on one side of the CCD camera 52, a telescopic end of the telescopic cylinder is provided with the pneumatic finger 55, and the tension detector 56 is clamped on the pneumatic finger 55.

The steel mesh (or the frame of the steel mesh) is placed on a workbench, a detection mechanism is driven to move to a designated detection point through a shaft movement platform, a CCD (charge coupled device) camera can visually detect the size of a hole on the steel mesh and the smoothness degree of the hole, a tension detector is abutted against the upper end face of the steel mesh, a telescopic cylinder moves downwards for a certain distance to simulate the downward pressure of a scraper blade on the steel mesh during screen printing, and the tension of the steel mesh can be detected; the lower end of the telescopic cylinder is provided with a pneumatic finger which is used for clamping the tension detector in a clamping state, the tension detector is fixed at the lower end of the telescopic cylinder instead of being fixed at the lower end of the telescopic cylinder, and the tension detector can be quickly installed and disassembled, so that the tension detector is beneficial to adjustment of maintenance, resetting and the like.

The three-axis motion platform comprises an X-axis motion mechanism 31, a Y-axis motion mechanism 32 and a Z-axis motion mechanism 33, and the mounting plate 51 is arranged on the Z-axis motion mechanism 33 in a vertically sliding manner.

The X-axis motion mechanism, the Y-axis motion mechanism and the Z-axis motion mechanism are conventional motion systems and respectively comprise a motor, a lead screw, a sliding rail and a sliding plate, the lead screw is driven by the motor to drive the sliding plate to reciprocate on the sliding rail, and the mounting plate 51 of the detection mechanism is arranged on the sliding plate of the Z-axis motion mechanism.

The Y-axis movement mechanism 32 is provided with a buffer cylinder 321.

A light source 53 is provided on the mounting plate 51 below the CCD camera 52 to provide illumination when detecting the quality of the formed holes.

The outside of frame 1 is equipped with casing 6, is equipped with the feed inlet 61 that is used for the steel mesh business turn over on casing 6, and the lower extreme of feed inlet 61 and the upper end parallel and level of steel mesh microscope carrier 4, insert the casing with the steel mesh through the feed inlet after, the lower terminal surface butt of steel mesh in the up end of steel mesh microscope carrier senses the material through the terminal material inductor that arrives of steel mesh microscope carrier, if artifical material loading, can indicate the material, the artifical pay-off that stops, if for automatic machine material loading, can stop the material loading through PLC program control.

The casing 6 is provided with an observation window 62 for observing the operation condition of the machine.

The upper end of the casing 6 is provided with a work indicator light 63.

Placing a steel mesh (silk screen) into the feeding hole, selecting corresponding tension detection points from the detection system, and detecting the tension of the corresponding detection points by using a detection mechanism after acquiring signals; when the size of the opening needs to be detected, the detection system directly confirms the size, commands are transmitted to the three-axis motion platform, and in the process, the CCD camera and the tension detector transmit the acquired data to the detection system to analyze and judge the data, so that a detection result is given.

the specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (8)

1. A steel mesh tension and pore-forming quality detection device comprises a frame (1), wherein a portal frame (2) is arranged on the frame (1), a three-axis motion platform is arranged on the portal frame (2), it is characterized in that a pair of steel mesh carrying platforms (4) are arranged on the opposite inner sides of the portal frame (2), the three-axis motion platform is provided with a detection mechanism which is positioned above the steel mesh carrier (4), the detection mechanism comprises a mounting plate (51), a CCD camera (52), a telescopic cylinder (54), a pneumatic finger (55) and a tension detector (56), the CCD camera (52) and the telescopic cylinder (54) are fixed on the mounting plate (51), the telescopic cylinder (54) is positioned at one side of the CCD camera (52), the telescopic end of the tension tester is provided with a pneumatic finger (55), and the tension tester (56) is clamped on the pneumatic finger (55).

2. The steel mesh tension and pore-forming quality detection device according to claim 1, wherein the three-axis motion platform comprises an X-axis motion mechanism (31), a Y-axis motion mechanism (32) and a Z-axis motion mechanism (33), and the mounting plate (51) is slidably arranged on the Z-axis motion mechanism (33) up and down.

3. The steel mesh tension and pore-forming quality detecting equipment according to claim 2, wherein the Y-axis moving mechanism (32) is provided with a buffer cylinder (321).

4. The steel mesh tension and hole forming quality detecting apparatus according to claim 1, wherein a light source (53) is provided below the CCD camera (52) on the mounting plate (51).

5. The steel mesh tension and pore-forming quality detection equipment according to claim 1, wherein a casing (6) is arranged on the outer side of the frame (1), and a feed inlet (61) for the steel mesh to enter and exit is arranged on the casing (6).

6. The steel mesh tension and pore-forming quality detection device according to claim 5, wherein the lower end of the feed port (61) is flush with the upper end of the steel mesh carrier (4).

7. A steel mesh tension and pore-forming quality detection apparatus according to claim 5, characterized in that the casing (6) is provided with a viewing window (62).

8. A steel mesh tension and pore-forming quality detection device according to claim 5, characterized in that the upper end of the casing (6) is provided with a work indicator light (63).