CN113649798A

CN113649798A - Quick erection equipment of car parts screw

Info

Publication number: CN113649798A
Application number: CN202110729824.2A
Authority: CN
Inventors: 张力凡
Original assignee: Yancheng Jiaanle Automation Technology Co ltd
Current assignee: Yancheng Jiaanle Automation Technology Co ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-11-16

Abstract

The invention discloses automobile part screw quick installation equipment which is provided with an X-axis transmission device, wherein the X-axis transmission device is vertically provided with a Z-axis transmission device, the X-axis transmission device and the Z-axis transmission device are in a cross shape, the Z-axis transmission device is provided with a Y-axis transmission device right opposite to a lower workbench, the Z-axis transmission device is provided with a screw locking mechanism, the Y-axis transmission device is provided with a part conveying device, the screw locking mechanism is provided with a material storage tank, a conveying pipe is connected below the material storage tank, a screw locking head is connected below the conveying pipe, and an air cylinder is arranged above a T-shaped sliding block. The component conveying device is provided with a first rotating shaft and a second rotating shaft which are coaxially arranged, the component conveying device is provided with a die cavity, a component is arranged in the die cavity, a rotating cylinder is arranged on the supporting plate and close to the die cavity, a pressing plate is arranged on the rotating cylinder, and a micro switch is arranged on the side wall of the die cavity.

Description

Quick erection equipment of car parts screw

Technical Field

The invention relates to the technical field of automobile part assembling equipment, in particular to quick mounting equipment for automobile part screws.

Background

The background art related to the present invention will be described below, but these descriptions do not necessarily constitute the prior art of the present invention.

In modern automobile processing production, competition is increasingly violent, requirements on production quality and production efficiency are higher, but most of screw fastening operations are still performed by operators holding screws in hand, or screw disks are used for arraying, so that efficiency can be slightly improved, or screw feeders on the market or automatic screw locking machines are used in production application. With the development of industrial automation, in order to meet the requirements of quality and efficiency of industrial automation, the requirement of automation is also improved, but some problems still exist in the processing process, such as unstable screw clamping and feeding, low screw feeding efficiency, complex feeder structure, long time consumption for removing abnormity when a fault occurs, high equipment noise, high manufacturing difficulty and strong technical application market potential of automatic screw locking, so that a simple-structure, simple-manufacturing, stable and efficient screw automatic locking device is urgently needed to be designed for supporting, and the invention is especially provided.

Disclosure of Invention

In order to solve the technical problem, the invention provides equipment for quickly mounting screws of automobile parts.

A quick installation device for automobile part screws comprises a workbench, wherein a support is arranged on the workbench, a vertical plate is arranged on the support, an X-axis transmission device is arranged on the vertical plate, a Z-axis transmission device is vertically arranged on the X-axis transmission device, the X-axis transmission device and the Z-axis transmission device are crossed, the Z-axis transmission device is just opposite to a Y-axis transmission device arranged on the workbench below, a screw locking mechanism is arranged on the Z-axis transmission device, a part conveying device is arranged on the Y-axis transmission device,

the X-axis transmission device realizes the movement of the screw locking mechanism along the X-axis direction, the Z-axis transmission device realizes the movement of the screw locking mechanism along the Z-axis direction, the Y-axis transmission device realizes the movement of the component conveying device along the Y-axis direction,

the screw locking mechanism is arranged on the Z-axis transmission device in a sliding manner, the screw locking mechanism is provided with a fixed plate, a first line rail is arranged on the fixed plate, a T-shaped sliding block is arranged on the first line rail, a through hole is formed in the T-shaped sliding block, a material storage tank is connected in the through hole, a conveying pipe is connected below the material storage tank, a screw locking head is connected below the conveying pipe, an air cylinder is arranged above the T-shaped sliding block,

the component conveying device is arranged on the Y-axis transmission device in a sliding mode, the component conveying device is provided with a bottom plate, a left fixing plate and a right fixing plate are arranged at two ends of the bottom plate, a first rotating shaft is arranged on the left fixing plate and connected with a first coupler, position switches are arranged between the first rotating shaft and the first coupler and are arranged at 2 angles, the position switches are arranged at 90 degrees, the first coupler is connected with a speed reducer, the speed reducer is connected with a first servo motor, a second rotating shaft is arranged on the right fixing plate and is arranged coaxially with the first rotating shaft and the second rotating shaft, the first rotating shaft and the second rotating shaft are connected with supporting frames, the two supporting frames are connected with supporting plates, mold cavities are fixedly arranged on the supporting plates, components are arranged in the mold cavities, and rotating cylinders are arranged on the supporting plates and close to the mold cavities, the rotary cylinder is provided with a pressing plate, and the side wall of the mold cavity is provided with a microswitch.

Further, X axle transmission is provided with first slip table headstock, be provided with the second shaft joint in the first slip table headstock, the second shaft joint is connected with first lead screw, first lead screw is connected with first bearing, first bearing is connected with first slip table tailstock, first bearing sets up in the first slip table tailstock, first slip table headstock is kept away from first slip table tailstock is provided with second servo motor, first slip table headstock both ends are provided with the second line rail, two all be provided with first slider on the second line rail, it is vice that first lead screw is provided with to slide on the first lead screw, first lead screw is vice, two first slider is connected Z axle transmission.

Further, Z axle transmission is provided with second slip table headstock, be provided with the third shaft coupling in the second slip table headstock, third shaft coupling ware is connected with the second lead screw, the second lead screw is connected with the second bearing, the second bearing is connected with the second slip table tailstock, the second bearing sets up in the second slip table tailstock, the second slip table headstock is kept away from the second slip table tailstock is provided with third servo motor, second slip table headstock both ends are provided with the third wire track, two all be provided with the second slider on the third wire track, it is vice that the second lead screw is provided with to slide on the second lead screw, the second lead screw is vice, two the second slider is connected the lock screw mechanism.

Further, Y axle transmission is provided with the third slip table headstock, be provided with the fourth shaft coupling in the third slip table headstock, the fourth shaft coupling is connected with the third lead screw, the third lead screw is connected with the third bearing, the third bearing is connected with the third slip table tailstock, the third bearing sets up in the third slip table tailstock, the third slip table headstock is kept away from the third slip table tailstock is provided with fourth servo motor, third slip table headstock both ends are provided with the fourth wire track, two all be provided with the third slider on the fourth wire track, it is vice that the third lead screw is provided with to slide on the third lead screw, the third lead screw is vice, four the third slider is connected part conveyor.

Furthermore, the X-axis transmission device, the Y-axis transmission device and the Z-axis transmission device are provided with an original point switch, and two ends of the original point switch are provided with limit switches.

Further, the workstation four sides are provided with the guard plate, the guard plate one side is provided with electric box, electric box is provided with the button.

The invention has the beneficial effects that: design part conveyor, it is rotatory to adopt motor drive pivot, prescribes a limit to car parts through setting up the die cavity, and revolving cylinder drives the clamp plate, realizes the fixed to car parts, sets up micro-gap switch on the die cavity, and whether the installation of inspection car parts targets in place, and part conveyor realizes the rotatory lock screw of a plurality of directions of car parts through the pivot.

The X-axis transmission device is designed to drive the Z-axis transmission device, the Z-axis transmission device drives the screw locking mechanism to operate, and the Y-axis transmission device drives the component conveying device, so that automatic production is realized.

The mechanism can set corresponding coordinate parameters by replacing the automobile mold cavity, and load the coordinate values of the screw holes of new products, thereby realizing diversified production of automobile products.

Drawings

FIG. 1 is a schematic structural view of an apparatus for quickly mounting screws of automobile parts according to the present invention.

FIG. 2 is a schematic structural view of an X-axis transmission device of the device for quickly mounting screws of automobile parts.

FIG. 3 is a schematic structural view of a Z-axis transmission device of the device for quickly mounting the screws of the automobile parts.

FIG. 4 is a schematic structural view of a Y-axis transmission device of the device for quickly mounting screws of automobile parts.

Fig. 5 is a schematic structural view of a screw locking mechanism of an apparatus for quickly mounting screws of automobile parts according to the present invention.

Fig. 6 is a schematic structural view of a component conveying device of an automobile component screw quick-mounting device according to the present invention.

In the figure: 1 workbench, 2 supports, 3 vertical plates, 4X-axis transmission device, 401 first sliding table head seat, 402 second coupler, 403 first screw rod, 404 first bearing, 405 first sliding table tail seat, 406 second servo motor, 407 second wire track, 408 first slide block, 409 first screw rod pair, 5Z-axis transmission device, 501 second sliding table head seat, 502 third coupler, 503 second screw rod, 504 second bearing, 505 second sliding table tail seat, 506 third servo motor, 507 third wire track, 508 second slide block, 509 second screw rod pair, 6Y-axis transmission device, 601 third sliding table, 602 fourth coupler, 603 third screw rod, 604 third bearing, 605 third sliding table tail seat, 606 fourth servo motor, 607 fourth wire track, 608 third slide block, 609 third screw rod pair, 7 locking mechanism,

fixing plate

701, 702 first wire track, T-shaped slide block, 704, material storage tank, 705 screw conveyer, 706 lock screw head, 707 cylinder, 8 parts conveyor, 801 bottom plate, 802 left fixed plate, 803 right fixed plate, 804 first rotating shaft, 805 first shaft coupling, 806 position switch, 807 speed reducer, 808 first servo motor, 809 second rotating shaft, 810 support frame, 811 support plate, 812 die cavity, 813 parts, 814 rotating cylinder, 815 clamp plate, 816 micro-gap switch, 9 origin switch, 10 limit switch, 11 protection plate, 12 electrical box, 1201 button.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, 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.

As shown in figure 1, the quick installation equipment for the automobile part screw comprises a workbench 1, wherein a support 2 is arranged on the workbench 1, a vertical plate 3 is arranged on the support 2, an X-axis transmission device 4 is arranged on the vertical plate 3, a Z-axis transmission device 5 is vertically arranged on the X-axis transmission device 4, the X-axis transmission device 4 and the Z-axis transmission device 5 are in a cross shape, the Z-axis transmission device 5 is just opposite to a Y-axis transmission device 6 arranged on the workbench 1 below, a screw locking mechanism 7 is arranged on the Z-axis transmission device 5, a part conveying device 8 is arranged on the Y-axis transmission device 6,

the X-axis transmission device 4 realizes the movement of the screw locking mechanism 7 along the X-axis direction, the Z-axis transmission device 5 realizes the movement of the screw locking mechanism 7 along the Z-axis direction, the Y-axis transmission device 6 realizes the movement of the component conveying device 8 along the Y-axis direction,

as shown in fig. 5, the screw locking mechanism 7 slides and sets up on the Z-axis transmission device 5, the screw locking mechanism 7 is provided with a fixing plate 701, be provided with first line rail 702 on the fixing plate 701, be provided with T type slider 703 on the first line rail 702, be provided with the via hole on the T type slider 703, the via hole in-connection has storage tank 704, storage tank 704 below is connected with conveyer pipe 705, lock screw head 706 is connected to conveyer pipe 705 below, T type slider 703 top is provided with cylinder 707, works as Z-axis transmission device 5 reachs the assigned position, and cylinder 707 realizes the downward locking motion of screw locking mechanism 7, accomplishes the operation.

As shown in fig. 6, the component conveying device 8 is slidably disposed on the Y-axis transmission device 6, the component conveying device 8 is provided with a bottom plate 801, two ends of the bottom plate 801 are provided with a left fixing plate 802 and a right fixing plate 803, the left fixing plate 802 is provided with a first rotating shaft 804, the first rotating shaft 804 is connected with a first coupling 805, a position switch 806 is disposed between the first rotating shaft 804 and the first coupling 805, 2 position switches 806 are disposed, the position switch 806 is disposed at 90 degrees, the position switch 806 ensures the rotational position precision of the component conveying device 8 and ensures the processing precision of a workpiece, the first coupling 805 is connected with a speed reducer 807, the speed reducer is connected with a first servo motor 807, the inertia of the component conveying device 8 is reduced while the speed reducer 807 is reduced, the right fixing plate 803 is provided with a second rotating shaft 809, the first rotating shaft 804 and the second rotating shaft 809 are coaxially arranged, the first rotating shaft 804 and the second rotating shaft 809 are connected with supporting frames 810, the two supporting frames 810 are connected with supporting plates 811, a mold cavity 812 is fixedly arranged on each supporting plate 811, a part 813 is arranged in each mold cavity 812, a rotating cylinder 814 is arranged on each supporting plate 811 and close to each mold cavity 812, a pressing plate 815 is arranged on each rotating cylinder 814, each pressing plate 815 is used for pressing and fixing the part 813 downwards, a micro switch 816 is arranged on the side wall of each mold cavity 812, and each micro switch 816 is used for detecting whether the part 813 is arranged or not and whether the part 813 is arranged in place or not.

In practical application, as shown in fig. 2, the X-axis transmission device 4 is provided with a first sliding table headstock 401, a second coupler 402 is provided in the first sliding table headstock 401, the second coupler 402 is connected with a first lead screw 403, the first lead screw 403 is connected with a first bearing 404, the first bearing 404 is connected with a first sliding table tailstock 405, the first bearing 404 is provided in the first sliding table tailstock 405, the first sliding table headstock 401 is provided with a second servo motor 406 away from the first sliding table tailstock 405, two ends of the first sliding table headstock 401 are provided with second line rails 407, two second line rails 407 are respectively provided with a first slider 408, the first lead screw 409 is slidably provided on the first lead screw 401, and the first pair 409 and the two first sliders 408 are connected to the Z-axis transmission device 5.

In practical application, as shown in fig. 3, the Z-axis transmission device 5 is provided with a second sliding table headstock 501, a third coupler 502 is provided in the second sliding table headstock 501, the third coupler 502 is connected with a second lead screw 503, the second lead screw 503 is connected with a second bearing 504, the second bearing 504 is connected with a second sliding table tailstock 505, the second bearing 504 is provided in the second sliding table tailstock 505, the second sliding table headstock 501 is far away from the second sliding table tailstock 505 and is provided with a third servo motor 506, two ends of the second sliding table headstock 501 are provided with third linear rails 507, two of the third linear rails 507 are provided with second sliders 508, the second lead screw 503 is slidably provided with a second lead screw pair 509, and the second lead screw pair 509 and the two of the second sliders 508 are connected to the screw locking mechanism 7.

In practical application, as shown in fig. 4, the Y-axis transmission device 6 is provided with a third sliding table headstock 601, a fourth coupler 602 is provided in the third sliding table headstock 601, the fourth coupler 602 is connected with a third lead screw 603, the third lead screw 603 is connected with a third bearing 604, the third bearing 604 is connected with a third sliding table tailstock 605, the third bearing 604 is provided in the third sliding table tailstock 605, the third sliding table headstock 601 is provided with a fourth servo motor 606 far away from the third sliding table tailstock 605, two ends of the third sliding table headstock 601 are provided with fourth tracks 607, two fourth tracks 607 are provided with third sliders 608, a third lead screw pair 609 is slidably provided on the third lead screw 603, and the third lead screw pair 609 and four third sliders 608 are connected to the component conveying device 8.

In practical application, the X-axis transmission device 4, the Y-axis transmission device 6 and the Z-axis transmission device 5 are provided with an origin switch 9, two ends of the origin switch 9 are provided with limit switches 10, the limit switches 10 limit the strokes of the X-axis transmission device 4, the Y-axis transmission device 6 and the Z-axis transmission device 5, and the origin switch 9 helps the X-axis transmission device 4, the Y-axis transmission device 6 and the Z-axis transmission device 5 to return to zero.

In practical application, four sides of the workbench 1 are provided with protection plates 11, one side of each protection plate 11 is provided with an electrical box 12, each electrical box 12 is provided with buttons 1201, and the buttons 1201 control the operation of the equipment.

The working principle is as follows:

the screw locking mechanism 7 conveys the aligned screws to the conveying pipe 705 individually, and drives the screw locking head 706 to screw downwards through the air cylinder 707. Design part conveyor 8, adopt first servo motor 808 drive first pivot 804, second pivot 809 is rotatory, inject car part 813 through setting up die cavity 812, revolving cylinder 814 drives clamp plate 815, the realization is fixed to car part 813, set up micro-gap switch 816 on the die cavity 812, it targets in place to examine car part 813 installation, part conveyor 8 realizes the rotation of three directions of car part 813 through first pivot 804, second pivot 809, and carry out the lock screw operation to corresponding position through lock screw mechanism 7.

After the automobile part 813 is installed in place, the screw locking mechanism 7 and the part conveying device 8 are moved to the position where screws need to be locked by moving the X-Y-Z axis, the rotating mechanism of the part conveying device 8 rotates to the surface where the screws need to be locked of the automobile part 813, the air cylinder 707 drives the screw locking mechanism 7 to move downwards, the screws contact the screw holes, the screw locking head 706 is automatically started, the locking is completed, the screw locking head 706 stops rotating after the locking is completed, meanwhile, the air cylinder 707 drives the screw locking mechanism 7 to return to the initial position, the X-Y-Z axis and the part conveying device 8 are moved to the initial position, the rotating air cylinder 814 drives the pressing plate 815 to loosen the automobile part 813, and one-time operation is completed.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the foregoing embodiments are merely illustrative of the technical spirit and features of the present invention, and the present invention is not limited thereto but may be implemented by those skilled in the art.

Claims

1. The utility model provides a quick erection equipment of auto parts screw, includes workstation (1), be provided with support (2) on workstation (1), be provided with riser (3) on support (2), its characterized in that: an X-axis transmission device (4) is arranged on the vertical plate (3), a Z-axis transmission device (5) is vertically arranged on the X-axis transmission device (4), the X-axis transmission device (4) and the Z-axis transmission device (5) are crossed, the Z-axis transmission device (5) is just opposite to a Y-axis transmission device (6) arranged on the lower workbench (1), a screw locking mechanism (7) is arranged on the Z-axis transmission device (5), a component conveying device (8) is arranged on the Y-axis transmission device (6),

the X-axis transmission device (4) realizes the movement of the screw locking mechanism (7) along the X-axis direction, the Z-axis transmission device (5) realizes the movement of the screw locking mechanism (7) along the Z-axis direction, the Y-axis transmission device (6) realizes the movement of the component conveying device (8) along the Y-axis direction,

the screw locking mechanism (7) is arranged on the Z-axis transmission device (5) in a sliding mode, the screw locking mechanism (7) is provided with a fixing plate (701), a first line rail (702) is arranged on the fixing plate (701), a T-shaped sliding block (703) is arranged on the first line rail (702), a through hole is formed in the T-shaped sliding block (703), a storage tank (704) is connected in the through hole, a conveying pipe (705) is connected to the lower portion of the storage tank (704), a screw locking head (706) is connected to the lower portion of the conveying pipe (705), an air cylinder (707) is arranged above the T-shaped sliding block (703),

the component conveying device (8) is arranged on the Y-axis transmission device (6) in a sliding mode, a bottom plate (801) is arranged on the component conveying device (8), a left fixing plate (802) and a right fixing plate (803) are arranged at two ends of the bottom plate (801), a first rotating shaft (804) is arranged on the left fixing plate (802), the first rotating shaft (804) is connected with a first coupler (805), a position switch (806) is arranged between the first rotating shaft (804) and the first coupler (805), the number of the position switches (806) is 2, the position switches (806) are arranged at 90 degrees, the first coupler (805) is connected with a speed reducer (807), the speed reducer (807) is connected with a first servo motor (808), a second rotating shaft (809) is arranged on the right fixing plate (803), and the first rotating shaft (804) and the second rotating shaft (809) are arranged coaxially, the first rotating shaft (804) and the second rotating shaft (809) are connected with supporting frames (810), the two supporting frames (810) are connected with supporting plates (811), mold cavities (812) are fixedly arranged on the supporting plates (811), parts (813) are arranged in the mold cavities (812), rotary cylinders (814) are arranged on the supporting plates (811) close to the mold cavities (812), pressing plates (815) are arranged on the rotary cylinders (814), and micro switches (816) are arranged on the side walls of the mold cavities (812).

2. The automobile part screw quick-mounting device according to claim 1, characterized in that: the X-axis transmission device (4) is provided with a first sliding table head seat (401), a second coupler (402) is arranged in the first sliding table head seat (401), the second coupling (402) is connected with a first screw rod (403), the first screw rod (403) is connected with a first bearing (404), the first bearing (404) is connected with a first sliding table tailstock (405), the first bearing (404) is arranged in the first sliding table tailstock (405), a second servo motor (406) is arranged on the first sliding table headstock (401) far away from the first sliding table tailstock (405), second linear rails (407) are arranged at two ends of the first sliding table headstock (401), first sliding blocks (408) are arranged on the two second linear rails (407), a first screw rod pair (409) is arranged on the first screw rod (403) in a sliding mode, the first screw rod pair (409) and the two first sliding blocks (408) are connected with the Z-axis transmission device (5).

3. The automobile part screw quick mounting device according to claim 2, characterized in that: the Z-axis transmission device (5) is provided with a second sliding table headstock (501), a third shaft coupling (502) is arranged in the second sliding table headstock (501), the third coupling (502) is connected with a second screw rod (503), the second screw rod (503) is connected with a second bearing (504), the second bearing (504) is connected with a second sliding table tailstock (505), the second bearing (504) is arranged in the second sliding table tailstock (505), a third servo motor (506) is arranged on the second sliding table headstock (501) far away from the second sliding table tailstock (505), third linear rails (507) are arranged at two ends of the second sliding table headstock (501), second sliding blocks (508) are arranged on the two third linear rails (507), the second screw rod (503) is provided with a second screw rod pair (509) in a sliding manner, the second screw rod pair (509) and the second sliding block (508) are connected with the screw locking mechanism (7).

4. The automobile part screw quick mounting device according to claim 3, characterized in that: the Y-axis transmission device (6) is provided with a third sliding table headstock (601), a fourth coupler (602) is arranged in the third sliding table headstock (601), the fourth coupler (602) is connected with a third screw rod (603), the third screw rod (603) is connected with a third bearing (604), the third bearing (604) is connected with a third sliding table tailstock (605), the third bearing (604) is arranged in the third sliding table tailstock (605), a fourth servo motor (606) is arranged on the third sliding table headstock (601) far away from the third sliding table tailstock (605), fourth linear rails (607) are arranged at two ends of the third sliding table headstock (601), third sliding blocks (608) are arranged on the two fourth linear rails (607), and a third screw pair (609) is arranged on the third screw (603) in a sliding manner, and the third screw pair (609) and four third sliding blocks (608) are connected with the component conveying device (8).

5. The automobile part screw quick-mounting device according to claim 1, characterized in that: the X-axis transmission device (4), the Y-axis transmission device (6) and the Z-axis transmission device (5) are provided with an original point switch (9), and two ends of the original point switch (9) are provided with limit switches (10).

6. The automobile part screw quick-mounting device according to claim 1, characterized in that: workstation (1) four sides is provided with guard plate (11), guard plate (11) one side is provided with electric box (12), electric box (12) are provided with button (1201).