CN216607929U - Single-rail double-head high-speed online screw locking machine - Google Patents

Abstract

The utility model relates to the technical field of mobile phone processing equipment, and discloses a single-rail double-head high-speed online screw locking machine which comprises a machine body, wherein a control device, a first screw locking device, a second screw locking device and a feeding device penetrating through the machine body are arranged at the machine body; the mobile phone parts to be processed are simultaneously locked through the first screw locking device and the second screw locking device, so that the screw locking efficiency is improved, the knife edge of the first screwdriver or the second screwdriver is replaced, the processing of the mobile phone parts with different requirements is met, the problems of procedure butt incompatibility and the like are avoided, meanwhile, the size occupied by the screw locking machine is greatly reduced, and the production cost is saved.

Description

Single-rail double-head high-speed online screw locking machine

Technical Field

The utility model relates to the technical field of mobile phone processing equipment, in particular to a single-rail double-head high-speed online screw locking machine.

Background

With the development of science and technology, mobile phones have become an indispensable part in our lives more and more, parts in the mobile phones need to be fixedly installed through screws in the production process of the mobile phones, most of existing screw locking devices only support screwing operation on a single screw model (such as cross screws or flower-shaped screws), the efficiency is low, a special screw locking assembly line needs to be arranged for batch operation for improving the efficiency, but the problems that procedure butt joint is incompatible and the like exist in different screw locking machines, and multiple conversion machines need to be arranged for pursuing procedure compatibility, so that the operation can be realized only by a large factory building, a lot of processing cost is increased invisibly, and improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a single-rail double-head high-speed online screw locking machine, and aims to provide a screw locking machine which is high in screw locking efficiency, simple in procedure butt joint and small in occupied space.

In order to achieve the purpose, the utility model provides a monorail double-head high-speed online screw locking machine which comprises a machine body, wherein a control device, a first screw locking device, a second screw locking device and a feeding device penetrating through the machine body are arranged at the machine body, the control device is respectively in control connection with the first screw locking device, the second screw locking device and the feeding device, the feeding device is used for conveying mobile phone parts to be processed to the first screw locking device and the second screw locking device and conveying the processed mobile phone parts to a next station outside the machine body, the first screw locking device comprises a first driving assembly and a first screwdriver, the first driving assembly is in transmission connection with the first screwdriver, the second screw locking device comprises a second driving assembly and a second screwdriver, the second driving assembly is in transmission connection with the second screwdriver, and the edges of the first screwdriver and the second screwdriver are different.

Specifically, first drive assembly with second drive assembly all includes lateral shifting subassembly, vertical movement subassembly and intelligent electricity and criticizes, and the output and the vertical movement subassembly transmission of lateral shifting subassembly are connected, and the output and the intelligent electricity of vertical movement subassembly are criticized the transmission and are connected, and the output and the first screwdriver or the transmission of second screwdriver are connected to the intelligence electricity of criticizing, and first drive assembly and second drive assembly set up relatively.

Specifically, the lateral shifting subassembly includes horizontal tow chain, horizontal slide rail, horizontal slider and mounting panel, be equipped with installation space in the organism, be equipped with the mounting bracket in the installation space, the top of mounting bracket is located to horizontal tow chain, and a side of mounting bracket is located to horizontal slide rail, and horizontal slide rail department is located in horizontal slider interaction, and the rear side and the horizontal slider of the lower extreme of mounting panel are connected, and the rear side of the upper end of mounting panel is connected with the output of horizontal tow chain, the front side of mounting panel is located to vertical removal subassembly.

Specifically, the vertical moving assembly comprises a vertical motor and a vertical mounting block, the vertical motor is fixedly connected with the mounting plate, a motor shaft end of the vertical motor is vertically arranged downwards, one end of the vertical mounting block is in transmission connection with the motor shaft end of the vertical motor, and the other end of the vertical mounting block is connected with the intelligent electric screwdriver.

Specifically, material feeding unit includes anterior pay-off subassembly, middle part pay-off subassembly and rear portion pay-off subassembly, organism department is equipped with one and runs through the organism and transport the mouth, and anterior pay-off subassembly and rear portion pay-off subassembly are equipped with the both ends of transporting the mouth respectively, and middle part pay-off subassembly is located in the organism.

Specifically, the front feeding assembly comprises a first feeding section, a second feeding section and a third feeding section which are arranged in a split manner according to a sequence from outside to inside, the first feeding section, the second feeding section and the third feeding section respectively comprise a front feeding frame, a front feeding belt arranged at the front feeding frame and a front feeding motor driving the front feeding belt to rotate, the front feeding belts arranged at the first feeding section, the second feeding section and the third feeding section extend and are arranged along the same direction, and the third feeding section is located in the machine body.

Specifically, rear portion pay-off subassembly includes from inside to outside according to the fourth pay-off section and the fifth pay-off section that wind set up in proper order, and fourth pay-off section and fifth pay-off section all include back pay-off frame, locate the back pay-off belt of back pay-off frame department and drive back pay-off belt pivoted back pay-off motor, and the back pay-off belt that fourth pay-off section and fifth pay-off section were established extends to arrange along same direction and sets up, and fourth pay-off section is located in the organism.

Specifically, the middle feeding assembly comprises a sixth feeding section and a seventh feeding section, the sixth feeding section and the seventh feeding section are respectively arranged on two sides of the first screw locking device or the second screw locking device, the sixth feeding section and the seventh feeding section respectively comprise a middle assembling plate, a middle feeding frame, a middle feeding belt and a middle feeding motor, the middle feeding frame is arranged on the upper surface of the middle assembling plate, the middle feeding belt and the middle feeding motor are arranged at the position of the middle feeding frame, and the motor shaft end of the middle feeding motor is in transmission connection with the middle feeding belt.

Specifically, middle part pay-off subassembly still includes preceding holder and back holder, and preceding holder and back holder are located respectively transport the front side and the rear side of mouth, and preceding holder and back holder all include centre gripping motor, centre gripping belt and grip block, and the motor shaft end of centre gripping motor is connected with centre gripping belt transmission and drives the centre gripping belt and remove about, and the upper end and the centre gripping belt of grip block are connected, and the lower extreme of grip block is used for carrying out the centre gripping to third pay-off section or fourth pay-off section.

Specifically, middle part pay-off subassembly still includes the middle part moving member, and the middle part moving member includes middle part slide rail, middle part slider and middle part sliding motor, and the middle part slide rail is located in the organism, the extending direction of middle part slide rail with the extending direction of anterior pay-off subassembly and rear portion pay-off group is the same, and the middle part slide rail is located in the middle part slider slides, the lower extreme and the middle part slider of middle part assembly plate are connected, and middle part sliding motor's output and middle part assembly plate are connected.

According to the technical scheme, the mobile phone parts to be processed are sent into the machine body through the feeding device, then the first screw locking device and the second screw locking device are used for simultaneously locking the mobile phone parts to be processed by screws, the screw locking efficiency is improved due to the fact that the knife edges of the first screwdriver and the second screwdriver are different, the mobile phone parts which are well locked are sent out of the machine body through the feeding device after the processing is finished, the knife edges of the first screwdriver or the second screwdriver are replaced, the processing of the mobile phone parts with different requirements is met, the problems of procedure butt-joint incompatibility and the like are avoided, meanwhile, the occupied volume of the screw locking machine is greatly reduced, and the production cost is saved.

Drawings

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

Fig. 2 is an enlarged schematic view of fig. 1 at a.

Fig. 3 is a schematic perspective view of the second embodiment of the present invention.

Fig. 4 is an enlarged schematic view of fig. 3 at B.

Fig. 5 is a third schematic perspective view of the present invention.

Fig. 6 is an enlarged schematic view at C of fig. 5.

Fig. 7 is a schematic perspective view of the middle feed assembly of the present invention.

The reference numerals include: 10. a body; 20. a control device; 30. a first lock screw device; 31. a second screw locking device; 32. a transverse drag chain; 33. mounting a plate; 34. a vertical motor; 35. intelligent electric screwdriver; 36. a first screwdriver; 40. a front feed assembly; 41. a first feeding section; 42. a second feeding section; 43. a third feeding section; 50. a middle feeding assembly; 51. a front clamping member; 52. a rear clamping member; 53. a middle assembly plate; 54. a middle feeding frame; 55. a middle feeding belt; 56. a middle feeding motor; 57. a middle slide rail; 58. a middle slide block; 59. a middle sliding motor; 60. a rear feed assembly; 61. a fourth feeding section; 62. a fifth feeding section; 70. and a recovery chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that if directional indications (such as … …, which is up, down, left, right, front, back, top, bottom, inner, outer, vertical, transverse, longitudinal, counterclockwise, clockwise, circumferential, radial, axial) are provided in the embodiments of the present invention, the directional indications are only used for explaining the relative position relationship, motion condition, etc. of the components at a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first" or "second", etc. in the embodiments of the present invention, the description of "first" or "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 7, a single-track double-head high-speed online screwing machine comprises a machine body 10, a control device 20 and a first screwing device 30 are arranged at the machine body 10, second lock screw device 31 and the material feeding unit who runs through organism 10, controlling means 20 respectively with first lock screw device 30, second lock screw device 31 and material feeding unit control connection, material feeding unit is used for transporting the cell-phone part that waits to process to first lock screw device 30 and second lock screw device 31 department and transport the cell-phone part that processes to the next station outside organism 10 simultaneously, first lock screw device 30 includes first drive assembly and first screwdriver 36, first drive assembly is connected with first screwdriver 36 transmission, second lock screw device 31 includes second drive assembly and second screwdriver, second drive assembly is connected with the transmission of second screwdriver, the edge of a knife of first screwdriver 36 and second screwdriver is inequality. When the mobile phone parts are machined, program setting is carried out through the control device 20 according to machining requirements of different mobile phone parts, the control device 20 controls the first screw locking device 30, the second screw locking device 31 and the feeding device to carry out program execution, the feeding device sends the mobile phone parts to be machined into the machine body 10, the first driving mechanism drives the first screw driver 36 to lock the screw at the corresponding position in the mobile phone parts, meanwhile, the second driving assembly drives the second screw driver to lock the screw at the corresponding position in the mobile phone parts, the screw locking efficiency is further improved, after machining is completed, the mobile phone parts are sent out of the machine body 10 through the feeding device and then are transmitted to the next station, stable butt joint among the working procedures is achieved, the occupied area of the machine is effectively reduced, and the production cost is saved.

The first driving assembly and the second driving assembly respectively comprise a transverse moving assembly, a vertical moving assembly and an intelligent electric screwdriver 35, the output end of the transverse moving assembly is in transmission connection with the vertical moving assembly, the output end of the vertical moving assembly is in transmission connection with the intelligent electric screwdriver 35, the output end of the intelligent electric screwdriver 35 is in transmission connection with the first screwdriver 36 or the second screwdriver, and the first driving assembly and the second driving assembly are arranged oppositely; the transverse moving assembly comprises a transverse drag chain 32, a transverse sliding rail, a transverse sliding block and a mounting plate 33, a mounting space is arranged in the machine body 10, a mounting frame is arranged in the mounting space, the transverse drag chain 32 is arranged above the mounting frame, the transverse sliding rail is arranged on one side surface of the mounting frame, the transverse sliding block is interactively arranged at the transverse sliding rail, the rear side of the lower end of the mounting plate 33 is connected with the transverse sliding block, the rear side of the upper end of the mounting plate 33 is connected with the output end of the transverse drag chain 32, and the vertical moving assembly is arranged on the front side of the mounting plate 33; the vertical moving assembly comprises a vertical motor 34 and a vertical mounting block, the vertical motor 34 is fixedly connected with the mounting plate 33, the motor shaft end of the vertical motor 34 is vertically arranged downwards, one end of the vertical mounting block is in transmission connection with the motor shaft end of the vertical motor 34, and the other end of the vertical mounting block is connected with the intelligent screwdriver 35. The mounting plate 33 is driven to move left and right through the transverse drag chain 32, the vertical motor 34 is driven to move left and right, the intelligent screwdriver 35 is driven to move up and down through the vertical motor 34, and the first screwdriver 36 or the second screwdriver is driven to move up and down, so that multi-point screw locking operation is conducted on mobile phone parts.

The feeding device comprises a front feeding component 40, a middle feeding component 50 and a rear feeding component 60, a conveying opening penetrating through the machine body 10 is formed in the machine body 10, the front feeding component 40 and the rear feeding component 60 are respectively provided with two ends of the conveying opening, and the middle feeding component 50 is arranged in the machine body 10; the front feeding assembly 40 comprises a first feeding section 41, a second feeding section 42 and a third feeding section 43 which are separately arranged in sequence from outside to inside, the first feeding section 41, the second feeding section 42 and the third feeding section 43 respectively comprise a front feeding frame, a front feeding belt arranged at the front feeding frame and a front feeding motor driving the front feeding belt to rotate, the front feeding belts arranged at the first feeding section 41, the second feeding section 42 and the third feeding section 43 extend and are arranged along the same direction, and the third feeding section 43 is positioned in the machine body 10; the rear feeding assembly 60 comprises a fourth feeding section 61 and a fifth feeding section 62 which are arranged in sequence from inside to outside, the fourth feeding section 61 and the fifth feeding section 62 both comprise a rear feeding frame, a rear feeding belt arranged at the rear feeding frame and a rear feeding motor for driving the rear feeding belt to rotate, the rear feeding belts arranged at the fourth feeding section 61 and the fifth feeding section 62 extend and are arranged along the same direction, and the fourth feeding section 61 is positioned in the machine body 10; the middle feeding assembly 50 comprises a sixth feeding section and a seventh feeding section, the sixth feeding section and the seventh feeding section are respectively arranged at two sides of the first screw locking device or the second screw locking device, the sixth feeding section and the seventh feeding section respectively comprise a middle assembling plate 53, a middle feeding frame 54, a middle feeding belt 55 and a middle feeding motor 56, the middle feeding frame 54 is arranged on the upper surface of the middle assembling plate 53, the middle feeding belt and the middle feeding motor 56 are arranged at the middle feeding frame 54, and the motor shaft end of the middle feeding motor 56 is in transmission connection with the middle feeding belt 55; the middle feeding assembly 50 further comprises a front clamping piece 51 and a rear clamping piece 52, the front clamping piece 51 and the rear clamping piece 52 are respectively arranged on the front side and the rear side of the conveying opening, the front clamping piece 51 and the rear clamping piece 52 respectively comprise a clamping motor, a clamping belt and a clamping block, the motor shaft end of the clamping motor is in transmission connection with the clamping belt and drives the clamping belt to move left and right, the upper end of the clamping block is connected with the clamping belt, and the lower end of the clamping block is used for clamping the third feeding section 43 or the fourth feeding section 61; middle part pay-off subassembly 50 still includes middle part moving member, and middle part moving member includes middle part slide rail 57, middle part slider 58 and middle part sliding motor 59, and in organism 10 was located to middle part slide rail 57, the extending direction of middle part slide rail 57 was the same with the extending direction of anterior pay-off subassembly 40 and rear portion pay-off group, middle part slider 58 slided and locates middle part slide rail 57, and the lower extreme and the middle part slider 58 of middle part assembly plate 53 are connected, and middle part sliding motor 59's output is connected with middle part assembly plate 53. In this embodiment, the mobile phone parts are fed through the first feeding section 41, the second feeding section 42 and the third feeding section 43, when the mobile phone parts move to the third feeding section 43, the mobile phone parts are paused first, the third feeding section 43 is clamped to the sixth feeding section positioned on the left side of the machine body 10 by the front clamping piece 51, that is, positioned on the left side of the first screw locking device 30 and the second screw locking device 31, the mobile phone parts are moved and placed at the sixth feeding section, the right side of the mobile phone parts is subjected to screw locking processing by the first screw locking device 30 and the second screw locking device 31, after the processing is completed, the mobile phone parts are moved and placed at the third feeding section 43, the front clamping piece 51 drives the third feeding section 43 to return to the original position, and then the mobile phone parts positioned at the third feeding section 43 are moved to the seventh feeding section positioned on the right side of the machine body 10, that is, positioned on the right side of the first screw locking device 30 and the second screw locking device 31, and the mobile phone parts are moved and placed at a seventh feeding section, the left sides of the mobile phone parts are subjected to screw locking processing by a first screw locking device 30 and a second screw locking device 31, the mobile phone parts are moved out of the machine body 10 along the rear feeding assembly 60 after the processing is finished, in addition, a detection device is also arranged at the rear feeding assembly 60, when the mobile phone parts subjected to the screw locking processing are moved to a fourth feeding section 61, the detection device can detect the mobile phone parts, if the processing is unqualified, the fourth feeding section 61 is moved to a recovery chute 70 by a rear clamping piece 52, the unqualified mobile phone parts are quickly recovered, and if the processing is qualified, the mobile phone parts are continuously moved to a fifth feeding section 62 so as to be moved to the next processing station.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention, which are made by using the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a single track double-end online screw locking machine at a high speed, a serial communication port, which comprises a bod, organism department is equipped with controlling means, first lock screw device, second lock screw device and the material feeding unit who runs through the organism, controlling means respectively with first lock screw device, second lock screw device and material feeding unit control connection, material feeding unit is used for transporting the cell-phone part that treats processing to first lock screw device and second lock screw device department and transports the cell-phone part that processes to the outer next station of organism simultaneously, first lock screw device includes first drive assembly and first screwdriver, first drive assembly is connected with first screwdriver transmission, second lock screw device includes second drive assembly and second screwdriver, second drive assembly is connected with the transmission of second screwdriver, the edge of a knife of first screwdriver and second screwdriver is inequality.

2. The single-rail double-head high-speed online screwing machine as claimed in claim 1, wherein the first driving assembly and the second driving assembly comprise a transverse moving assembly, a vertical moving assembly and an intelligent screwdriver, the output end of the transverse moving assembly is in transmission connection with the vertical moving assembly, the output end of the vertical moving assembly is in transmission connection with the intelligent screwdriver, the output end of the intelligent screwdriver is in transmission connection with the first screwdriver or the second screwdriver, and the first driving assembly and the second driving assembly are arranged oppositely.

3. The single-track double-head high-speed online screwing machine as claimed in claim 2, wherein the transverse moving assembly comprises a transverse drag chain, a transverse slide rail, a transverse slider and a mounting plate, a mounting space is arranged in the machine body, a mounting frame is arranged in the mounting space, the transverse drag chain is arranged above the mounting frame, the transverse slide rail is arranged on one side face of the mounting frame, the transverse slider is interactively arranged at the transverse slide rail, the rear side of the lower end of the mounting plate is connected with the transverse slider, the rear side of the upper end of the mounting plate is connected with the output end of the transverse drag chain, and the vertical moving assembly is arranged at the front side of the mounting plate.

4. The single-rail double-head high-speed online screwing machine as claimed in claim 3, wherein the vertical moving assembly comprises a vertical motor and a vertical mounting block, the vertical motor is fixedly connected with the mounting plate, a motor shaft end of the vertical motor is vertically arranged downwards, one end of the vertical mounting block is in transmission connection with the motor shaft end of the vertical motor, and the other end of the vertical mounting block is connected with the intelligent screwdriver.

5. The single-track double-head high-speed online screwing machine as claimed in claim 1, wherein the feeding device comprises a front feeding assembly, a middle feeding assembly and a rear feeding assembly, the machine body is provided with a conveying opening penetrating through the machine body, the front feeding assembly and the rear feeding assembly are respectively provided with two ends of the conveying opening, and the middle feeding assembly is arranged in the machine body.

6. The single-track double-head high-speed online screwing machine as claimed in claim 5, wherein the front feeding assembly comprises a first feeding section, a second feeding section and a third feeding section which are separately arranged in sequence from outside to inside, the first feeding section, the second feeding section and the third feeding section respectively comprise a front feeding frame, a front feeding belt arranged at the front feeding frame and a front feeding motor driving the front feeding belt to rotate, the front feeding belts arranged at the first feeding section, the second feeding section and the third feeding section extend and are arranged in the same direction, and the third feeding section is located in the machine body.

7. The single-track double-head high-speed online screwing machine as claimed in claim 6, wherein the rear feeding assembly comprises a fourth feeding section and a fifth feeding section which are sequentially arranged from inside to outside, the fourth feeding section and the fifth feeding section comprise a rear feeding frame, a rear feeding belt arranged at the rear feeding frame and a rear feeding motor driving the rear feeding belt to rotate, the rear feeding belts arranged at the fourth feeding section and the fifth feeding section extend and are arranged in the same direction, and the fourth feeding section is located in the machine body.

8. The single-track double-head high-speed online screw locking machine as claimed in claim 7, wherein the middle feeding assembly comprises a sixth feeding section and a seventh feeding section, the sixth feeding section and the seventh feeding section are respectively disposed at two sides of the first screw locking device or the second screw locking device, the sixth feeding section and the seventh feeding section respectively comprise a middle assembling plate, a middle feeding frame, a middle feeding belt and a middle feeding motor, the middle feeding frame is disposed on the upper surface of the middle assembling plate, the middle feeding belt and the middle feeding motor are disposed at the middle feeding frame, and a motor shaft end of the middle feeding motor is in transmission connection with the middle feeding belt.

9. The single-track double-head high-speed online screw locking machine as claimed in claim 8, wherein the middle feeding assembly further comprises a front clamping piece and a rear clamping piece, the front clamping piece and the rear clamping piece are respectively arranged on the front side and the rear side of the conveying port, the front clamping piece and the rear clamping piece both comprise a clamping motor, a clamping belt and a clamping block, the motor shaft end of the clamping motor is in transmission connection with the clamping belt and drives the clamping belt to move left and right, the upper end of the clamping block is connected with the clamping belt, and the lower end of the clamping block is used for clamping a third feeding section or a fourth feeding section.

10. The single-track double-head high-speed online screwing machine as claimed in claim 8, wherein the middle feeding assembly further comprises a middle moving member, the middle moving member comprises a middle slide rail, a middle slider and a middle sliding motor, the middle slide rail is arranged in the machine body, the extending direction of the middle slide rail is the same as the extending direction of the front feeding assembly and the rear feeding assembly, the middle slider is slidably arranged in the middle slide rail, the lower end of the middle assembling plate is connected with the middle slider, and the output end of the middle sliding motor is connected with the middle assembling plate.

Images