CN111250967A

CN111250967A - Screw driving-in machine

Info

Publication number: CN111250967A
Application number: CN201811463841.0A
Authority: CN
Inventors: 刘辉翔; 陈进; 李叶来; 谢述红; 陈清
Original assignee: Shenzhen Haipengxin Electronics Co ltd
Current assignee: Shenzhen Haipengxin Electronics Co ltd
Priority date: 2018-12-03
Filing date: 2018-12-03
Publication date: 2020-06-09

Abstract

The invention discloses a screw screwing machine which comprises a discharging mechanism, a feeding mechanism and a screwing assembly, wherein the feeding mechanism is arranged on the feeding mechanism; the screwing assembly comprises a screwing mounting plate, a screwing lifting driving mechanism, a screwing driving motor, a screwdriver head, a screwing position sensor and a screwing triggering sheet; the discharging mechanism comprises a discharging bottom plate and a discharging placing plate. The wire frame to be screwed with the screw is placed on the discharging mechanism, the feeding mechanism is used for feeding the screw to the position right below the screwdriver head, and the screwing component is used for screwing the screw on the feeding mechanism into the wire frame to be screwed with the screw on the discharging mechanism; twist lift actuating mechanism and drive and twist into lifter plate downstream for screw contact on criticizing head and the feeding mechanism twists the driving motor and drives and criticize the head and twist the screw and operate, when twist the trigger piece of twist on the lifter plate and trigger when twisting position sensor, twist driving motor stall, and then realize twisting the preset degree of depth with the screw, and then promoted and twisted efficiency.

Description

Screw driving-in machine

Technical Field

The invention relates to the field of wiring frame processing equipment, in particular to a screw screwing machine.

Background

The wiring frame is used for the installation and the fixed of wire, utilizes the screw to fix wire fixed mounting on the wiring frame usually, consequently for the convenience of subsequent installation is fixed, needs to twist the screw into the wiring frame in advance, and follow-up operation screw can accomplish the installation of wire fixed.

The existing screw screwing-in equipment mainly directly screws a screw to the bottom of a wiring frame, the screwing-in height of the screw cannot be adjusted, or the height of the screw screwed into the wiring frame is adjusted by screwing the screw to the bottom and then reversely screwing the fixed number of turns, so that the screw screwing-in efficiency is low.

Disclosure of Invention

The invention aims to provide a screw driving machine, and aims to solve the problem that in the prior art, screw driving efficiency is low.

In order to achieve the purpose, the invention adopts the following technical scheme:

the screw screwing machine comprises a discharging mechanism for placing a wire frame to be screwed with a screw, a feeding mechanism which is positioned right above the discharging mechanism and used for conveying the screw, and a screwing assembly for screwing the screw on the feeding mechanism into the wire frame on the discharging mechanism; the screwing assembly comprises a screwing mounting plate, a screwing lifting plate in sliding connection with the screwing mounting plate, a screwing lifting driving mechanism for driving the screwing lifting plate to slide, a screwing driving motor arranged on the screwing lifting plate, a screwdriver bit arranged on an output shaft of the screwing driving motor and used for screwing a screw, a screwing position sensor arranged on the screwing mounting plate, and a screwing trigger piece arranged on the screwing lifting plate and matched with the screwing position sensor; discharge mechanism includes ejection of compact bottom plate, locates ejection of compact bottom plate and the ejection of compact that is used for placing the wire frame place the board, be used for promoting the ejection of compact is placed the ejection of compact push pedal of the wire frame on the board and is used for the drive ejection of compact promotion actuating mechanism that ejection of compact push pedal removed.

Furthermore, the feeding mechanism comprises a feeding bottom plate, a feeding guide plate which is arranged on the feeding bottom plate and is provided with a feeding guide groove, a feeding push plate which is arranged in the feeding guide groove and is in sliding connection with the feeding guide plate, and a feeding driving device for driving the feeding push plate to move; the pay-off push pedal is offered and is used for holding the pay-off receiving groove of screw, the pay-off deflector in first pay-off hole of stepping down has been seted up to the tank bottom of pay-off guide groove, the pay-off bottom plate seted up with first pay-off hole of stepping down corresponding second pay-off hole of stepping down.

Furthermore, the feeding push plate is provided with a third feeding abdicating hole matched with the first feeding abdicating hole; one side of the feeding bottom plate, which is far away from the feeding guide plate, is provided with a feeding limiting block, and the feeding limiting block is provided with a fourth feeding yielding hole corresponding to the second feeding yielding hole.

Furthermore, two oppositely arranged feeding clamping plates are arranged on the feeding limiting block, and the feeding clamping plates are rotationally connected with the feeding limiting block; the side wall of the feeding guide groove is provided with a feeding notch, and a screw is placed into the feeding receiving groove through the feeding notch.

Furthermore, the ejection of compact placing plate is seted up and is used for placing the ejection of compact standing groove of wire frame, set up on the lateral wall of ejection of compact standing groove and place the mouth in order to supply the wire frame to get into the ejection of compact standing groove's ejection of compact, the lateral wall of ejection of compact standing groove is equipped with contact pick-up, the ejection of compact is placed the mouth with contact pick-up is located respectively two lateral walls that ejection of compact standing groove is relative.

Further, ejection of compact promotion actuating mechanism is for locating ejection of compact promotion cylinder of ejection of compact bottom plate.

Further, the screwing lifting driving mechanism is a screwing lifting cylinder arranged on the screwing mounting plate.

Further, be equipped with on the wrong income mounting panel and twist the deflector, it is located to twist the deflector twist the lifter plate and keep away from twist one side of lift actuating mechanism, it offers on the deflector to twist in order to supply the wrong income hole of stepping down that the batch head passes through.

Furthermore, an oil pressure buffer is arranged on the screwing lifting plate and is arranged on one side, close to the screwing guide plate, of the screwing lifting plate.

Furthermore, the screwing installation plate is provided with a screwing guide rail, and the screwing lifting plate is provided with a screwing sliding block which is connected with the screwing guide rail in a sliding mode.

The invention has the beneficial effects that: the wire frame to be screwed with the screw is placed on the discharging mechanism, the feeding mechanism is used for feeding the screw to the position right below the screwdriver head, and the screwing component is used for screwing the screw on the feeding mechanism into the wire frame to be screwed with the screw on the discharging mechanism; twist lift actuating mechanism and drive and twist into lifter plate downstream for screw contact on batch head and the feeding mechanism twists driving motor and drives and criticize the head and twist the operation to the screw, when twist the trigger piece of twist on the lifter plate and trigger when twisting position sensor, twists driving motor stall, and then realizes twisting the preset degree of depth with the screw, and then has promoted the wrong income efficiency of screw.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic view of a screw driver according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view of a feed mechanism in an embodiment of the present invention;

FIG. 4 is an exploded view of a feed mechanism in an embodiment of the present invention;

FIG. 5 is a schematic structural view of a screw-in assembly in an embodiment of the present invention;

FIG. 6 is a schematic view of a discharge mechanism in an embodiment of the present invention;

in the figure:

800. a screw; 900. a wiring frame; 2. a feeding mechanism; 21. a feeding bottom plate; 211. a second feeding abdicating hole; 22. a feeding guide plate; 221. a feeding guide groove; 222. a first feeding abdicating hole; 223. a feeding gap; 23. a feeding push plate; 231. a feeding receiving groove; 232. a third feeding abdicating hole; 24. a feeding drive device; 25. a feeding limiting block; 251. a fourth feeding abdicating hole; 26. feeding clamping plates; 3. screwing the assembly in; 31. screwing in the mounting plate; 311. screwing in the guide rail; 32. screwing in the lifting plate; 321. a hydraulic shock absorber; 322. screwing in the sliding block; 33. screwing in a lifting driving mechanism; 34. screwing in a driving motor; 35. a batch head; 36. screwing in a position sensor; 37. screwing in the trigger piece; 38. screwing in a buffer spring; 39. screwing in the guide plate; 4. a discharging mechanism; 41. a discharge bottom plate; 42. a discharging placing plate; 421. a discharging placement groove; 422. a discharging placing opening; 423. a contact sensor; 43. a discharging push plate; 44. the discharging pushes the driving mechanism; 45. a discharge pipeline.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are 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 one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

As shown in fig. 1 to 5, the embodiment of the invention provides a screw screwing machine, which comprises a discharging mechanism 4 for placing a wire frame 900 to be screwed with a screw 800, a feeding mechanism 2 located right above the discharging mechanism 4 and used for conveying the screw 800, and a screwing component 3 for screwing the screw 800 on the feeding mechanism 2 into the wire frame 900 on the discharging mechanism 4; the screwing component 3 comprises a screwing mounting plate 31, a screwing lifting plate 32 connected with the screwing mounting plate 31 in a sliding manner, a screwing lifting driving mechanism 33 used for driving the screwing lifting plate 32 to slide, a screwing driving motor 34 arranged on the screwing lifting plate 32, a screwdriver bit 35 arranged on an output shaft of the screwing driving motor 34 and used for screwing the screw 800, a screwing position sensor 36 (which can be a Hall sensor) arranged on the screwing mounting plate 31, and a screwing triggering sheet 37 arranged on the screwing lifting plate 32 and matched with the screwing position sensor 36; the discharging mechanism 4 comprises a discharging bottom plate 41, a discharging placing plate 42 which is arranged on the discharging bottom plate 41 and is used for placing the wire frame 900, a discharging pushing plate 43 which is used for pushing the wire frame 900 on the discharging placing plate 42, and a discharging pushing driving mechanism 44 which is used for driving the discharging pushing plate 43 to move.

In an embodiment of the invention, the working process of the screw driver is as follows: the discharging mechanism 4 is provided with a wiring frame 900 to be screwed with the screw 800, the feeding mechanism 2 is used for feeding the screw 800 to the position right below the screwdriver bit 35, and the screwing component 3 is used for screwing the screw 800 on the feeding mechanism 2 into the wiring frame 900 to be screwed with the screw 800 on the discharging mechanism 4; screw in elevating system 33 and drive and twist into elevating plate 32 downstream for criticizing head 35 and the contact of the screw 800 on the feeding mechanism 2, twist into driving motor 34 and drive criticizing head 35 and twist into the operation to screw 800, twist into when the twist triggers piece 37 on the elevating plate 32 of twisting triggers and twists into position sensor 36, twist into driving motor 34 stall, and then realize twisting into the preset degree of depth with screw 800, and then promoted the efficiency of screwing up of screw 800.

The board 42 is placed in the ejection of compact on discharge mechanism 4 for placing the wire frame 900 of waiting to process, and after wire frame 900 accomplished to twist screw 800, the ejection of compact promoted actuating mechanism 44 and drives ejection of compact push pedal 43 and will accomplish the wire frame 900 of twisting screw 800 and push away from the ejection of compact and place board 42, then utilizes outside charging equipment to place the wire frame 900 of waiting to process on the board 42 is placed in the ejection of compact or the manual work is placed wire frame 900 on the board 42 is placed in the ejection of compact.

Further, referring to fig. 3-4, as a specific embodiment of the screw driver provided by the present invention, the feeding mechanism 2 includes a feeding bottom plate 21, a feeding guide plate 22 disposed on the feeding bottom plate 21 and having a feeding guide groove 221, a feeding push plate 23 disposed in the feeding guide groove 221 and slidably connected to the feeding guide plate 22, and a feeding driving device 24 for driving the feeding push plate 23 to move; the feeding push plate 23 is provided with a feeding receiving groove 231 for accommodating the screw 800, the feeding guide plate 22 is provided with a first feeding abdicating hole 222 at the bottom of the feeding guide groove 221, and the feeding bottom plate 21 is provided with a second feeding abdicating hole 211 corresponding to the first feeding abdicating hole 222. The feeding mechanism 2 is used for feeding the screws 800 to the position right below the batch head 35, and the specific process is as follows: the screw 800 is placed in the feeding receiving groove 231 on the feeding push plate 23, the feeding driving device 24 drives the feeding push plate 23 to move and drives the screw 800 to move, when the screw 800 moves to the position right above the first feeding abdicating hole 222, the screw drops from the first feeding abdicating hole 222 and continues to penetrate through the second feeding abdicating hole 211 to reach the processing position (the wiring frame 900 is placed right below the second feeding abdicating hole 211), and the screw 800 can be screwed into the wiring frame 900 through the first feeding abdicating hole 222 and the second feeding abdicating hole 211 by the screwdriver head 35 on the equipment for screwing the screw 800.

Further, referring to fig. 3 to 4, as a specific embodiment of the screw driver according to the present invention, the feeding push plate 23 is provided with a third feeding abdicating hole 232 for matching with the first feeding abdicating hole 222; a feeding limiting block 25 is arranged on one side of the feeding bottom plate 21 far away from the feeding guide plate 22, and the feeding limiting block 25 is provided with a fourth feeding abdicating hole 251 corresponding to the second feeding abdicating hole 211. After the screw 800 falls from the first feeding abdicating hole 222, the feeding push plate 23 recovers and receives the next screw 800, the bit 35 can penetrate through the third feeding abdicating hole 232 and then sequentially penetrate through the first feeding abdicating hole 222 and the second feeding abdicating hole 211 to operate the screw 800, the feeding push plate 23 does not need to be screwed down and then recovered, and the processing speed is effectively improved. In order to ensure that the screw 800 does not deflect after penetrating through the second feeding abdicating hole 211, the feeding limiting block 25 is arranged, and the screw 800 penetrates through a fourth abdicating hole in the feeding limiting block 25 and then reaches the wiring frame 900.

Further, referring to fig. 3-4, as a specific embodiment of the screw driver provided by the present invention, two feeding clamping plates 26 are oppositely disposed on the feeding limiting block 25, and the feeding clamping plates 26 are rotatably connected to the feeding limiting block 25; the side wall of the feeding guide groove 221 has a feeding gap 223, and the screw 800 is inserted into the feeding receiving groove 231 through the feeding gap 223. Accomplish the wire frame 900 that screw 800 screwed in and need the ejection of compact to change next wire frame 900, in order to avoid screw 800 to drop under the condition that the station was not put into at next wire frame 900, set up two pay-off splint 26, screw 800 can't pass through pay-off splint 26 under the condition of not receiving external force, when detecting that wire frame 900 reachs the station, the wholesale head 35 on the equipment of screwing up screw 800 pushes down and drives screw 800 and pass through pay-off splint 26 (drive pay-off splint 26 when external force is enough and rotate and realize switching to the open mode relative to pay-off stopper 25), contact with wire frame 900, wholesale head 35 rotates and twists wire frame 900 with screw 800. The screw 800 of the external feeding rail is manually inserted into the feeding guide groove 221 through the feeding notch 223, and when the feeding push plate 23 moves in the feeding guide groove 221 so that the feeding receiving groove 231 corresponds to the feeding notch 223, the screw 800 of the feeding rail is inserted into the feeding receiving groove 231 (or the screw 800 is manually inserted into the feeding receiving groove 231).

Further, referring to fig. 6, as a specific embodiment of the screw screwing machine provided by the present invention, the discharging placing plate 42 is provided with a discharging placing groove 421 for placing the wire frame 900, a discharging placing opening 422 for allowing the wire frame 900 to enter the discharging placing groove 421 is provided on a side wall of the discharging placing groove 421, a contact sensor 423 (which may be a photoelectric sensor) is provided on a side wall of the discharging placing groove 421, and the discharging placing opening 422 and the contact sensor 423 are respectively located on two side walls opposite to the discharging placing groove 421. An external feeding mechanism or a manual work puts the wire frame 900 into the discharging placement groove 421 from the discharging placement opening 422, at this time, the discharging pushing driving mechanism 44 pushes the discharging pushing plate 43 to be placed at a position corresponding to the discharging placement opening 422, that is, the wire frame 900 enters the discharging placement groove 421 from one side and is not contacted with the side wall of the other side due to the blocking effect of the discharging pushing plate 43 (the thickness of the discharging pushing plate 43 is smaller than the width of the discharging placement groove 421, so that the wire frame 900 is located in the discharging placement groove 421 but not contacted with the side wall of the other side at this time), at this time, the wire frame 900 is positioned and screws 800 into the wire frame 900 through the screwing component 3, after the screwing operation is completed, the discharging pushing driving mechanism 44 pulls the discharging pushing plate 43 to leave the position corresponding to the discharging placement opening 422, and then the wire frame 900 entering the discharging placement groove 421 from the discharging placement opening 422 pushes the wire frame 900, when the wire frame 900 which is screwed is close to or contacts with the side wall of the discharging placing groove 421 provided with the contact sensor 423, the contact sensor 423 is triggered to control the discharging pushing driving mechanism 44 to drive the discharging pushing plate 43 to push the wire frame 900 which is screwed away from the discharging placing groove 421.

Further, referring to fig. 6, as a specific embodiment of the screw driver according to the present invention, the discharging pushing driving mechanism 44 is a discharging pushing cylinder disposed on the discharging base plate 41, a discharging pipe 45 is disposed on the discharging base plate 41, and the discharging pipe 45 is disposed at an end of the discharging placing plate 42 away from the discharging pushing cylinder. Ejection of compact promotion actuating mechanism 44 (ejection of compact promotion cylinder) drives ejection of compact push pedal 43 and will accomplish the wire frame 900 of twisting and push away from ejection of compact standing groove 421 and drop to ejection of compact pipeline 45 in, accomplish the ejection of compact action.

Further, referring to fig. 5, as a specific embodiment of the screw screwing machine provided by the present invention, the screwing lift driving mechanism 33 is a screwing lift cylinder disposed on the screwing mounting plate 31, and a screwing buffer spring 38 is disposed between a piston rod of the screwing lift cylinder and the screwing lift plate 32, so as to avoid rigid impact between the bit 35 and the screw 800.

Further, referring to fig. 5, as a specific embodiment of the screw screwing machine provided by the present invention, the screwing installation plate 31 is provided with a screwing guide plate 39, the screwing guide plate 39 is located on one side of the screwing lifting plate 32 away from the screwing lifting driving mechanism 33, and the screwing guide plate 39 is provided with a screwing abdicating hole for the bit 35 to pass through. The screwdriver head 35 penetrates through the screwing yielding hole to screw the screw 800, and the screwdriver head 35 with a certain length is guaranteed not to deviate when in use.

Further, referring to fig. 5, as an embodiment of the screw driver according to the present invention, an oil buffer 321 is disposed on the screw lifting plate 32, and the oil buffer 321 is located on a side of the screw lifting plate 32 close to the screw guide plate 39. The hydraulic buffer 321 cooperates with the screwing position sensor 36 to define the height of the screw-in lifter plate 32 to be lowered.

Further, referring to fig. 5, as a specific embodiment of the screw screwing machine provided by the present invention, a screwing guide rail 311 is disposed on the screwing mounting plate 31, and a screwing slider 322 slidably connected to the screwing guide rail 311 is disposed on the screwing lifting plate 32.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims

1. The screw screwing machine is characterized by comprising a discharging mechanism, a feeding mechanism and a screwing assembly, wherein the discharging mechanism is used for placing a wiring frame into which a screw is to be screwed, the feeding mechanism is positioned right above the discharging mechanism and is used for conveying the screw, and the screwing assembly is used for screwing the screw on the feeding mechanism into the wiring frame on the discharging mechanism; the screwing assembly comprises a screwing mounting plate, a screwing lifting plate in sliding connection with the screwing mounting plate, a screwing lifting driving mechanism for driving the screwing lifting plate to slide, a screwing driving motor arranged on the screwing lifting plate, a screwdriver bit arranged on an output shaft of the screwing driving motor and used for screwing a screw, a screwing position sensor arranged on the screwing mounting plate, and a screwing trigger piece arranged on the screwing lifting plate and matched with the screwing position sensor; the discharging mechanism comprises a discharging bottom plate and a discharging placing plate which is arranged on the discharging bottom plate and used for placing the wiring frame.

2. The screw driver according to claim 1, wherein the feeding mechanism comprises a feeding base plate, a feeding guide plate provided with a feeding guide groove and disposed on the feeding base plate, a feeding push plate disposed in the feeding guide groove and slidably connected to the feeding guide plate, and a feeding driving device for driving the feeding push plate to move; the pay-off push pedal is offered and is used for holding the pay-off receiving groove of screw, the pay-off deflector in first pay-off hole of stepping down has been seted up to the tank bottom of pay-off guide groove, the pay-off bottom plate seted up with first pay-off hole of stepping down corresponding second pay-off hole of stepping down.

3. The screw driver according to claim 2, wherein the feeding push plate is provided with a third feeding abdicating hole for matching with the first feeding abdicating hole; one side of the feeding bottom plate, which is far away from the feeding guide plate, is provided with a feeding limiting block, and the feeding limiting block is provided with a fourth feeding yielding hole corresponding to the second feeding yielding hole.

4. The screw driver according to claim 3, wherein the feeding limiting block is provided with two oppositely arranged feeding clamping plates, and the feeding clamping plates are rotatably connected with the feeding limiting block; the side wall of the feeding guide groove is provided with a feeding notch, and a screw is placed into the feeding receiving groove through the feeding notch.

5. The screw driver according to any one of claims 1 to 4, wherein said discharging mechanism further comprises a discharging pusher plate for pushing said wire frame on said discharging placement plate, and a discharging pushing drive mechanism for driving said discharging pusher plate to move; the utility model discloses a wire frame, including ejection of compact standing groove, contact sensor, ejection of compact standing groove, contact sensor is located respectively two relative lateral walls of ejection of compact standing groove, the ejection of compact standing groove that is used for placing the wire frame is offered to the ejection of compact standing plate, set up on the lateral wall of ejection of compact standing groove and place the mouth in order to supply the wire frame to get.

6. The screw driver according to claim 5, wherein said outfeed push drive mechanism is an outfeed push cylinder provided to said outfeed base plate.

7. The screw driver according to any one of claims 1 to 4, wherein said screw driving/lowering mechanism is a screw lifting/lowering cylinder provided in said screw mounting plate.

8. The screw screwing-in machine according to claim 7, wherein the screwing-in mounting plate is provided with a screwing-in guide plate, the screwing-in guide plate is positioned on one side of the screwing-in lifting plate, which is far away from the screwing-in lifting driving mechanism, and the screwing-in guide plate is provided with a screwing-in abdicating hole for the bit to pass through.

9. The screw driver according to claim 8, wherein an oil buffer is provided on the screw-in elevating plate, the oil buffer being provided on a side of the screw-in elevating plate adjacent to the screw-in guide plate.

10. The screw driver according to any one of claims 1 to 4, wherein a screw-in guide rail is provided on the screw-in mounting plate, and a screw-in slider slidably connected to the screw-in guide rail is provided on the screw-in elevating plate.