CN201437296U - Steel-mesh automatic locating system - Google Patents

Abstract

The utility model discloses a steel-mesh automatic locating system, which comprises a compressed steel-mesh cylinder, a steel-mesh bracket, a man-machine interaction module, a blocking steel-mesh cylinder and a graduated beam, wherein the compressed steel-mesh cylinder is arranged on a steel mesh; the graduated beam is arranged at one side of the steel mesh; and the man-machine interaction module can receive the input of lengths and widths of the steel mesh and a PCB board. When the system is used, the steel-mesh bracket and the blocking steel-mesh cylinder are moved to the corresponding positions according to the X-direction position and the Y-direction position of the steel mesh calculated precisely in the man-machine interaction module; then after the steel mesh is inserted into the steel-mesh bracket to be in contact with the stop lever of the blocking steel-mesh cylinder, the compressed steel-mesh cylinder can compress the steel mesh automatically, and the steel mesh can be located and clamped according to the preset position. Compared with the habitually use, the steel mesh can be located automatically without adopting the man visual inspection mode, so as to realize simple and convenient operation, thereby greatly reducing the wire change time and improving the production efficiency.

Description

A kind of steel mesh automatic station-keeping system

Technical field

The utility model relates to navigation system, concretely, is meant the steel mesh automatic station-keeping system on a kind of SMT of being used for full-automatic vision printing machine.

Background technology

In full-automatic vision printing machine, steel mesh is used for the tin of semiliquid semi-solid state slurry is printed on the pcb board, therefore, the location of steel mesh and pcb board is just important, during general the location, even the mesh of the roughly contraposition steel mesh between steel mesh and the pcb board need be overlapped substantially with the printing position of pcb board, and then the MARK point of steel mesh is overlapped fully with the MARK point of pcb board.

Usually all be to locate manually in the industry at present, cooperate shown in Figure 1, steel mesh 1 ' be installed in steel mesh carriage 2 ' on, steel mesh 1 ' both sides respectively be provided with the cylinder 3 of two compressed steel nets ', steel mesh 1 ' a side be the operator estimate manual moving handle 4 ' drive steel mesh 1 ' make steel mesh 1 ' with pcb board roughly after the contraposition, add a constant resistance piece 5 ' or removable stopper that has scale in the Y direction, steel mesh 1 ' opposite side corresponding with the Y direction be provided with the band scale crossbeam 7 ', write down X, the pointer 6 of Y direction ' corresponding scale value and preserve, when republish corresponding steel mesh 1 ' and during pcb board next time, these group data are taken out, behind the stopper 5 of Y direction ' and the pointer 6 of directions X ' move corresponding scale place, refill folder steel mesh and fixing.The defective of this way is: whenever do a different pcb board of cover and steel mesh and want once artificial contraposition of correspondence and record to file, directly influence production efficiency and make mistakes easily, and operate loaded down with trivial detailsly, just the inaccurate factor of locating is big, brings inconvenience to the user.

The utility model content

The purpose of this utility model is to provide a kind of steel mesh automatic station-keeping system, and it can overcome existing shortcoming, can realize automatic location, and convenience simple to operation has significantly reduced conversion time, has improved production efficiency.

For achieving the above object, technical scheme that the utility model adopts is:

A kind of steel mesh automatic station-keeping system, it includes one group of compressed steel net cylinder, steel mesh carriage and band scale crossbeam, steel mesh is installed on the steel mesh carriage, described compressed steel net cylinder is installed on the steel mesh, the crossbeam of described band scale is installed in steel mesh operative position direction, wherein: described navigation system also further includes human-computer interaction module, be located at the retaining steel mesh cylinder on the Y direction, described human-computer interaction module is accepted steel mesh and the input of pcb board length and width size, and calculate the X of steel mesh, the positional information of Y direction, according to this information, with reference to the scale on the described band scale crossbeam described steel mesh carriage is moved on to the relevant position, and move on to the relevant position at the described retaining steel mesh of Y direction cylinder.

Above-mentioned human-computer interaction module comprises display screen and computing module, and described display screen is accepted the data input, calculates the X of steel mesh, the position of Y direction by described computing module.

Above-mentioned retaining steel mesh cylinder below is provided with pin.

Above-mentioned navigation system also further comprises automatic translating device, and described automatic translating device can be accepted the information of described human-computer interaction module, and described retaining steel mesh cylinder is moved on to the relevant position automatically.

Above-mentioned automatic translating device comprises drive unit and transmission device, and described transmission device links to each other with described retaining steel mesh cylinder, and described drive unit drives described actuator movement, thereby drives the translation of described retaining steel mesh cylinder.

Any power set of above-mentioned drive unit at first rotatablely moving, preferred motor in the present patent application.

Above-mentioned transmission device is the Synchronous Transmission structure, comprise three travelling gears, two driving-belts, first travelling gear links to each other with drive unit by first driving-belt, second travelling gear and the same through-drive of first travelling gear, described second travelling gear links to each other with the 3rd travelling gear by second driving-belt, and described second driving-belt links to each other with retaining steel mesh cylinder by connector.

Above-mentioned connector comprises a sliding beam and contiguous block, and described contiguous block is located at a side of sliding beam, and described steel mesh cylinder is located on the sliding beam, and the described contiguous block and second driving-belt are affixed.

The utility model adopts after the technique scheme, during use, after the length and width size of the at first definite steel mesh of operator and the length and width size of PCB, the corresponding sized data of input on the display screen of human-computer interaction module, can calculate the X of steel mesh accurately by the computing module in the human-computer interaction module, the position of Y direction, directions X can move on to the relevant position to the steel mesh carriage with reference to the scale on the band scale crossbeam, lock by cylinder then, in the Y direction, by the data message after the motor reception calculating, by synchronizing wheel and synchronous band, drive sliding beam and make retaining steel mesh cylinder be automatically moved to the relevant position.The operator will compress steel mesh automatically as long as steel mesh is inserted steel mesh carriage compressed steel net cylinder behind the pin that touches retaining steel mesh cylinder afterwards, and steel mesh is also just finished by the position positioning and clamping that configures.Machine enters next step program.Compare with commonly using, the utility model is owing to go steel mesh without artificial visually examine's mode, but realizes location automatically, thereby convenience simple to operation has significantly reduced conversion time, has improved production efficiency.

Description of drawings

Fig. 1 is the schematic diagram of the steel mesh location structure commonly used;

Fig. 2 is a structural representation of the present utility model;

Fig. 3 is the partial enlarged drawing at Fig. 2 A place.

The specific embodiment

With the specific embodiment the invention is described below in conjunction with accompanying drawing, it only is a kind of embodiment of the invention, does not limit the scope of the invention with this.

See also shown in Fig. 2,3, the utility model discloses a kind of steel mesh automatic station-keeping system, cooperate steel mesh 1 to use, it includes steel mesh carriage 2, one group of compressed steel net cylinder 3, human-computer interaction module 4, is located at retaining steel mesh cylinder 5, band scale crossbeam 7 and automatic translating device 8 on the Y direction, wherein:

Steel mesh 1 is installed on the steel mesh carriage 2, and compressed steel net cylinder 3 is provided with four, is installed in the both sides of steel mesh 1 respectively, and the crossbeam 7 of band scale is installed in steel mesh 1 one sides.

Human-computer interaction module 4 comprises display screen 41 and computing module 42, and display screen 41 is accepted the data input of steel mesh and pcb board length and width size, calculates the X of steel mesh, the position of Y direction by computing module 42.

Automatically translating device 8 comprises drive unit 81 and transmission device 82, and drive unit 81 is a motor; Transmission device 82 comprises three travelling gears 821,822,823 and two driving-belts 824,825, travelling gear 821 links to each other with motor 81 by driving-belt 824, travelling gear 822 and travelling gear 821 same through-drive, travelling gear 822 links to each other with travelling gear 823 by driving-belt 825, and driving-belt 825 links to each other with retaining steel mesh cylinder 5 by connector 9.

Connector 9 comprises a sliding beam 91 and contiguous block 92, and contiguous block 92 is located at a side of sliding beam 91, and retaining steel mesh cylinder 5 is located on the sliding beam 91, and contiguous block 92 is affixed with driving-belt 825.

The below of sliding beam 92 is provided with slide block 93, and it can slide on linear slide rail 10.

Information according to human-computer interaction module 4 calculates moves on to the relevant position to steel mesh carriage 2 with reference to the scale on the band scale crossbeam 7, and in the Y direction, will keep off steel mesh cylinder 5 by automatic translating device 8 and move on to the relevant position automatically.

With reference to shown in Figure 3, retaining steel mesh cylinder 5 sides are provided with pin 51.

During use, after the operator at first determines the length and width size of steel mesh 1 length and width size and PCB, go into corresponding sized data at human-computer interaction module 4 display screens 41, accurately calculate steel mesh 1 by the computing module 42 of human-computer interaction module 4, the position of Y direction, directions X can arrive the relevant position to steel mesh carriage 2 with reference to the scale of band scale crossbeam 7, lock by cylinder, and the Y direction, by the data message after 4 calculating of motor 81 reception human-computer interaction modules, motor 81 drives travelling gear 821 by driving-belt 824 and rotates, the transmission gear teeth 821 are coaxial with travelling gear 822, travelling gear 822 drives travelling gears 823 by driving-belt 825 again and rotates, contiguous block 92 be with synchronously 825 affixed, therefore, the slide block 93 that contiguous block 92 also drives sliding beam 91 slides on linear slide rail 10, is automatically moved to the relevant position thereby will keep off steel mesh cylinder 5.The operator is as long as go into steel mesh carriage 2 to steel mesh 1 to touching retaining steel mesh cylinder 5 pins 51 afterwards, and compressed steel net cylinder 3 can compress steel mesh 1 automatically, and steel mesh 1 is also just finished by the position positioning and clamping that configures.Machine enters next step program.

Though described the invention by embodiment, those of ordinary skills know, the invention has many distortion and variation and does not break away from the spirit of the invention, wishes that appended claim comprises these distortion and variation and do not break away from the spirit of the invention.

Claims (8)

1. steel mesh automatic station-keeping system, it includes one group of compressed steel net cylinder, steel mesh carriage and band scale crossbeam, steel mesh is installed on the steel mesh carriage, described compressed steel net cylinder is installed on the steel mesh, the crossbeam of described band scale is installed in steel mesh operative position direction, it is characterized in that: described navigation system also further includes human-computer interaction module and is located at retaining steel mesh cylinder on the Y direction, described human-computer interaction module is accepted steel mesh and the input of pcb board length and width size, and calculate the X of steel mesh, the positional information of Y direction, according to this information, with reference to the scale on the described band scale crossbeam described steel mesh carriage is moved on to the relevant position, and move on to the relevant position at the described retaining steel mesh of Y direction cylinder.

2. steel mesh automatic station-keeping system according to claim 1, it is characterized in that: described human-computer interaction module comprises display screen and computing module, described display screen is accepted the data input, calculates the X of steel mesh, the position of Y direction by described computing module.

3. steel mesh automatic station-keeping system as claimed in claim 1 or 2, it is characterized in that: described retaining steel mesh cylinder below is provided with pin.

4. steel mesh automatic station-keeping system as claimed in claim 1 or 2, it is characterized in that: described navigation system also further comprises automatic translating device, described automatic translating device can be accepted the information of described human-computer interaction module, and described retaining steel mesh cylinder is moved on to the relevant position automatically.

5. steel mesh automatic station-keeping system as claimed in claim 4, it is characterized in that: described automatic translating device comprises drive unit and transmission device, described transmission device links to each other with described retaining steel mesh cylinder, described drive unit drives described actuator movement, thereby drives the translation of described retaining steel mesh cylinder.

6. steel mesh automatic station-keeping system as claimed in claim 5 is characterized in that: described drive unit is a motor.

7. steel mesh automatic station-keeping system as claimed in claim 5, it is characterized in that: described transmission device is the Synchronous Transmission structure, comprise three travelling gears, two driving-belts, first travelling gear links to each other with drive unit by first driving-belt, second travelling gear and the same through-drive of first travelling gear, described second travelling gear links to each other with the 3rd travelling gear by second driving-belt, and described second driving-belt links to each other with retaining steel mesh cylinder by connector.

8. steel mesh automatic station-keeping system as claimed in claim 7, it is characterized in that: described connector comprises a sliding beam and contiguous block, described contiguous block is located at a side of sliding beam, and described steel mesh cylinder is located on the sliding beam, and the described contiguous block and second driving-belt are affixed.

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