CN210519071U - Touch-sensitive screen wiring machine - Google Patents

Abstract

The utility model discloses a touch-sensitive screen wiring machine, which comprises a fixed pedestal, vertical motor, vertical ball screw, vertical lead screw guide pin bushing, vertical slider, vertical slide rail, the support section bar, horizontal motor, horizontal ball screw, horizontal lead screw guide pin bushing, horizontal slider, horizontal slide rail, the adaptor, the keyset, the encoder, the wiring motor, the gyro wheel is extruded to the first, gyro wheel and touch-sensitive screen are extruded to the second, unable adjustment base's top fixed mounting has the wiring bottom plate, the keyset is fixed on horizontal slider, the upper end at the keyset is connected to the adaptor, the middle-end at the keyset is connected to the encoder, the gyro wheel is all located the lower extreme of keyset with the second extrusion gyro wheel for the first time, the wiring motor is installed on the keyset, the expansion end of wiring motor is connected with the first. This touch-sensitive screen wiring machine passes through the cooperation of slider with the slide rail, has realized planar fixed point wiring, by the output length of encoder real time control wire, and whole wiring effect is showing and is improving, and efficiency promotes.

Description

Touch-sensitive screen wiring machine

Technical Field

The utility model relates to a technical field of wiring machine especially relates to a touch-sensitive screen wiring machine.

Background

The wiring means the arrangement of wire connection between components, wires are firstly wired, and the wires penetrate through holes where pins which are electrically connected are located, so that the components can be welded and connected.

At present, most of devices are used for wiring treatment, but the length of a lead cannot be controlled in real time, and wiring positions are inaccurate and low in efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the utility model provides a touch-sensitive screen wiring machine, this touch-sensitive screen wiring machine pass through the cooperation of slider with the slide rail, have realized planar fixed point wiring, by the output length of encoder real-time control conductor wire, whole wiring effect is showing and is improving, efficiency promotion.

To achieve the purpose, the utility model adopts the following technical proposal:

a touch screen wire distribution machine comprises a fixed base, a longitudinal motor, a longitudinal ball screw, a longitudinal screw guide sleeve, a longitudinal sliding block, a longitudinal sliding rail, a supporting section bar, a transverse motor, a transverse ball screw, a transverse screw guide sleeve, a transverse sliding block, a transverse sliding rail, a switching piece, a switching plate, a coder, a wire distribution motor, a first extrusion roller, a second extrusion roller and a touch screen, wherein a wire distribution bottom plate is fixedly arranged above the fixed base, the longitudinal sliding rail is positioned on the side edge of the wire distribution bottom plate, the longitudinal sliding rail is fixedly connected with the fixed base, the fixed end of the longitudinal motor is fixed at one end of the longitudinal sliding rail, the movable end of the longitudinal motor is connected with the longitudinal ball screw, the longitudinal sliding block is connected on the longitudinal sliding rail in a sliding manner, the longitudinal screw guide sleeve is fixedly connected with the longitudinal sliding block, and the longitudinal screw guide sleeve is in threaded transmission, the supporting section bar is fixed on the longitudinal sliding block, the transverse sliding rail is fixed on the supporting section bar, the fixed end of the transverse motor is fixed at one end of the transverse sliding rail, the movable end of the transverse motor is connected with the transverse ball screw, the transverse sliding block is connected on the transverse sliding rail in a sliding manner, the transverse screw guide sleeve is fixedly connected with the transverse sliding block, the transverse screw guide sleeve is in threaded transmission connection with the transverse ball screw, the adapter plate is fixed on the transverse sliding block, the adapter piece is connected at the upper end of the adapter plate, the encoder is connected at the middle end of the adapter plate, the first extrusion roller and the second extrusion roller are both positioned at the lower end of the adapter plate, the wiring motor is installed on the adapter plate, and the movable end of the wiring motor is in transmission connection with the first extrusion roller, the touch screen is characterized in that a positioning piece is arranged on the adapter plate, the second extrusion roller is rotatably connected with the positioning piece, and the touch screen is installed at the front end of the fixed base.

As a preferred technical scheme, a longitudinal coupling is connected between the longitudinal motor and the longitudinal ball screw, and a transverse coupling is connected between the transverse motor and the transverse ball screw.

As a preferred technical scheme, longitudinal bearing fixing parts are arranged at two ends of each longitudinal sliding rail, longitudinal bearings are installed in the longitudinal bearing fixing parts, and the end parts of the longitudinal ball screws are connected with the longitudinal bearings; and the two ends of the transverse sliding rail are provided with transverse bearing fixing parts, transverse bearings are installed in the transverse bearing fixing parts, and the end parts of the transverse ball screws are connected with the transverse bearings.

As a preferred technical solution, a connecting pad is connected between the supporting section bar and the longitudinal sliding block.

As a preferred technical scheme, a limiting groove is formed in the top of the adapter piece in the vertical direction and used for placing a wire roller.

As a preferable technical solution, a nozzle is fixed to the lower end of the positioning member.

As a preferred technical scheme, including drive shaft, driving gear and driven gear, the both ends of drive shaft are connected respectively first extrude the gyro wheel with driven gear, the drive shaft runs through the setting element, the driving gear is installed wiring motor's activity is served, the driving gear with belt transmission is connected between the driven gear.

As a preferable technical scheme, an SD card connector is provided on a side surface of the fixed base, a power key is provided on a rear surface of the fixed base, and a driving power supply is fixed inside the fixed base.

The utility model has the advantages that: the utility model provides a touch-sensitive screen wiring machine, this touch-sensitive screen wiring machine pass through the cooperation of slider with the slide rail, have realized planar fixed point wiring, by the output length of encoder real-time control conductor wire, whole wiring effect is showing and is improving, efficiency promotion.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is a schematic view of a first overall structure of a touch screen wiring machine according to an embodiment;

fig. 2 is a second overall structural schematic diagram of a touch screen wiring machine according to an embodiment;

fig. 3 is a schematic partial structure diagram of a touch screen wiring machine according to an embodiment.

In fig. 1 to 3:

1. a fixed base; 2. a longitudinal motor; 3. a longitudinal ball screw; 4. a longitudinal screw rod guide sleeve; 5. a longitudinal slide block; 6. a longitudinal slide rail; 7. supporting the section bar; 8. a transverse motor; 9. a transverse ball screw; 10. a transverse screw rod guide sleeve; 11. a transverse slide block; 12. a transverse slide rail; 13. an adapter; 14. an adapter plate; 15. an encoder; 16. wiring a motor; 17. a first extrusion roller; 18. a second extrusion roller; 19. a touch screen; 20. a wiring backplane; 21. a positioning member; 22. a nozzle; 23. a wire drum; 24. a longitudinal coupling; 25. a transverse coupling; 26. a longitudinal bearing mount; 27. a transverse bearing mount; 28. connecting the base plate; 29. a limiting groove; 30. a driven gear; 31. an SD card connector; 32. a power key.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 3, in this embodiment, a touch screen wire distribution machine includes a fixed base 1, a longitudinal motor 2, a longitudinal ball screw 3, a longitudinal screw guide sleeve 4, a longitudinal slider 5, a longitudinal slide rail 6, a support profile 7, a transverse motor 8, a transverse ball screw 9, a transverse screw guide sleeve 10, a transverse slider 11, a transverse slide rail 12, an adaptor 13, an adaptor plate 14, an encoder 15, a wire distribution motor 16, a first extrusion roller 17, a second extrusion roller 18, and a touch screen 19, a wire distribution base plate 20 is fixedly installed above the fixed base 1, the longitudinal slide rail 6 is located at a side edge of the wire distribution base plate 20, the longitudinal slide rail 6 is fixedly connected to the fixed base 1, a fixed end of the longitudinal motor 2 is fixed to one end of the longitudinal slide rail 6, and a movable end of the longitudinal motor 2 is connected to the longitudinal ball screw 3, the longitudinal slide block 5 is connected to the longitudinal slide rail 6 in a sliding manner, the longitudinal screw rod guide sleeve 4 is fixedly connected with the longitudinal slide block 5, the longitudinal screw rod guide sleeve 4 is in threaded transmission connection with the longitudinal ball screw 3, the support profile 7 is fixed to the longitudinal slide block 5, the transverse slide rail 12 is fixed to the support profile 7, the fixed end of the transverse motor 8 is fixed to one end of the transverse slide rail 12, the movable end of the transverse motor 8 is connected with the transverse ball screw 9, the transverse slide block 11 is connected to the transverse slide rail 12 in a sliding manner, the transverse screw rod guide sleeve 10 is fixedly connected with the transverse slide block 11, the transverse screw rod guide sleeve 10 is in threaded transmission connection with the transverse ball screw 9, the adapter plate 14 is fixed to the transverse slide block 11, and the adapter 13 is connected to the upper end of the adapter plate 14, the encoder 15 is connected the middle-end of keyset 14, first extrude the gyro wheel 17 with the second extrude gyro wheel 18 and all be located the lower extreme of keyset 14, wiring motor 16 installs on the keyset 14, wiring motor 16's expansion end with first extrusion gyro wheel 17 transmission is connected, be provided with setting element 21 on the keyset 14, the second extrude the gyro wheel 18 with setting element 21 rotates to be connected, touch-sensitive screen 19 is installed the front end of unable adjustment base 1.

Specifically, a nozzle 22 is fixed to a lower end of the positioning member 21.

After the longitudinal motor 2 is started, the longitudinal ball screw 3 is controlled to rotate to drive the longitudinal sliding block 5 connected with the longitudinal screw guide sleeve 4, so that the longitudinal sliding block 5 moves along the longitudinal sliding rail 6, and similarly, after the transverse motor 8 is started, the transverse ball screw 9 is controlled to rotate to drive the transverse sliding block 11 connected with the transverse screw guide sleeve 10, so that the transverse sliding block 11 moves along the transverse sliding rail 12, and the adapter plate 14 can move at a fixed point on the whole plane due to the movement in two directions.

The wire roller 23 wound with the wire is placed on the adapter 13, then the wire end passes through the encoder 15 and then is pulled between the first extrusion roller 17 and the second extrusion roller 18, the wiring motor 16 drives the first extrusion roller 17 to rotate, the wire is extruded to the wiring bottom plate 20, and the wiring route and the pattern design are manually controlled by the touch screen 19.

In this embodiment, a longitudinal coupling 24 is connected between the longitudinal motor 2 and the longitudinal ball screw 3, and a transverse coupling 25 is connected between the transverse motor 8 and the transverse ball screw 9.

The longitudinal coupling 24 and the transverse coupling 25 can respectively protect the longitudinal ball screw 3 and the transverse ball screw 9.

In this embodiment, the longitudinal slide rail 6 is provided with longitudinal bearing fixing parts 26 at both ends thereof, the longitudinal bearing fixing parts 26 are provided with longitudinal bearings, and the end parts of the longitudinal ball screws 3 are connected with the longitudinal bearings; and the two ends of the transverse sliding rail 12 are both provided with transverse bearing fixing parts 27, transverse bearings are installed in the transverse bearing fixing parts 27, and the end parts of the transverse ball screws 9 are connected with the transverse bearings.

The friction generated between the ball screw and the connecting piece is reduced by the longitudinal bearing and the transverse bearing.

In this embodiment, a connecting pad 28 is connected between the support profile 7 and the longitudinal slide 5.

The support profile 7 is connected to the longitudinal slide 5 by the connecting plate 28 so that it is fixed relative thereto.

In this embodiment, a limiting groove 29 is disposed on the top of the adaptor 13 along the vertical direction, and the limiting groove 29 is used for placing the wire roller 23.

The wire roller 23 wound with the wire is inserted into the limiting groove 29 by the support rods protruding from both ends, and when the wire roller 23 rotates to be outgoing, the wire roller 23 is kept on the adapter 13.

In this embodiment, including drive shaft, driving gear and driven gear 30, the both ends of drive shaft are connected respectively first extrusion roller 17 with driven gear 30, the drive shaft runs through setting element 21, the driving gear is installed on wiring motor 16's the activity is served, the driving gear with belt transmission is connected between the driven gear 30.

The wiring motor 16 transmits power from the movable end of the wiring motor 16 to the first extrusion roller 17 through transmission between a pair of gears, and when the first extrusion roller 17 rotates, the wiring motor and the second extrusion roller 18 clamp a wire and pull down the wire to perform wiring.

The side of unable adjustment base 1 is provided with SD card connection mouth 31, the back of unable adjustment base 1 is provided with power key 32, the inside of unable adjustment base 1 is fixed with drive power supply.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the technical principles applied, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention.

Claims (8)

1. A touch screen wire distribution machine is characterized by comprising a fixed base, a longitudinal motor, a longitudinal ball screw, a longitudinal screw guide sleeve, a longitudinal slider, a longitudinal slide rail, a supporting profile, a transverse motor, a transverse ball screw, a transverse screw guide sleeve, a transverse slider, a transverse slide rail, a switching piece, a switching plate, an encoder, a wire distribution motor, a first extrusion roller, a second extrusion roller and a touch screen, wherein a wire distribution bottom plate is fixedly arranged above the fixed base, the longitudinal slide rail is positioned on the side edge of the wire distribution bottom plate, the longitudinal slide rail is fixedly connected with the fixed base, the fixed end of the longitudinal motor is fixed at one end of the longitudinal slide rail, the movable end of the longitudinal motor is connected with the longitudinal ball screw, the longitudinal slider is slidably connected on the longitudinal slide rail, the longitudinal screw guide sleeve is fixedly connected with the longitudinal slider, the longitudinal screw rod guide sleeve is in threaded transmission connection with the longitudinal ball screw rod, the supporting profile is fixed on the longitudinal sliding block, the transverse sliding rail is fixed on the supporting profile, the fixed end of the transverse motor is fixed at one end of the transverse sliding rail, the movable end of the transverse motor is connected with the transverse ball screw rod, the transverse sliding block is in sliding connection with the transverse sliding rail, the transverse screw rod guide sleeve is fixedly connected with the transverse sliding block, the transverse screw rod guide sleeve is in threaded transmission connection with the transverse ball screw rod, the adapter plate is fixed on the transverse sliding block, the adapter plate is connected to the upper end of the adapter plate, the encoder is connected to the middle end of the adapter plate, the first extrusion roller and the second extrusion roller are both positioned at the lower end of the adapter plate, and the wiring motor is installed on the adapter plate, the movable end of the wiring motor is in transmission connection with the first extrusion roller, a positioning piece is arranged on the adapter plate, the second extrusion roller is in rotation connection with the positioning piece, and the touch screen is installed at the front end of the fixed base.

2. The touch screen wiring machine according to claim 1, wherein a longitudinal coupling is connected between the longitudinal motor and the longitudinal ball screw, and a transverse coupling is connected between the transverse motor and the transverse ball screw.

3. The touch screen wiring machine according to claim 1, wherein longitudinal bearing fixing members are arranged at two ends of the longitudinal slide rail, longitudinal bearings are installed in the longitudinal bearing fixing members, and ends of the longitudinal ball screws are connected with the longitudinal bearings; and the two ends of the transverse sliding rail are provided with transverse bearing fixing parts, transverse bearings are installed in the transverse bearing fixing parts, and the end parts of the transverse ball screws are connected with the transverse bearings.

4. The touch screen cabling machine of claim 1, wherein a connection pad is connected between the support profile and the longitudinal slide.

5. The touch screen wiring machine according to claim 1, wherein a limiting groove is formed in the top of the adapter in the vertical direction, and the limiting groove is used for accommodating the wire roller.

6. The touch screen wiring machine according to claim 1, wherein a nozzle is fixed to a lower end of the positioning member.

7. The touch screen wire distribution machine of claim 1, comprising a driving shaft, a driving gear and a driven gear, wherein two ends of the driving shaft are respectively connected to the first extrusion roller and the driven gear, the driving shaft penetrates through the positioning member, the driving gear is mounted on a movable end of the wire distribution motor, and the driving gear is in belt transmission connection with the driven gear.

8. The touch screen wiring machine as claimed in claim 1, wherein an SD card connector is provided on a side surface of the fixing base, a power key is provided on a rear surface of the fixing base, and a driving power supply is fixed inside the fixing base.

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