CN218908842U - Automatic arrangement feeding device for screws - Google Patents

Automatic arrangement feeding device for screws Download PDF

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Publication number
CN218908842U
CN218908842U CN202223277250.9U CN202223277250U CN218908842U CN 218908842 U CN218908842 U CN 218908842U CN 202223277250 U CN202223277250 U CN 202223277250U CN 218908842 U CN218908842 U CN 218908842U
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China
Prior art keywords
track plate
track
feeding
plate
screw
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CN202223277250.9U
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Chinese (zh)
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纪磊
胡桂庭
丁正权
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Nanchang Huaqin Electronic Technology Co ltd
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Nanchang Huaqin Electronic Technology Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

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Abstract

The embodiment of the utility model discloses an automatic screw arranging and feeding device which is used for solving the technical problem that the working efficiency of the existing arranging and feeding device for screws is low. The embodiment of the utility model comprises a storage box and a feeding conveying track; an inclined plane for obliquely guiding the screw in the storage box is arranged in the storage box, the feeding conveying track is arranged in the storage box, and the feeding conveying track is connected with a vibrator; the feeding conveying rail is characterized in that a storage groove for receiving screws sliding obliquely from the inclined surface is formed in the outer side wall of the feeding conveying rail and separated from the inclined surface by a preset distance, a jacking plate for jacking the screws in the storage groove and enabling the screws to slide to the feeding conveying rail is arranged in the storage groove, and the jacking plate is connected with a driving assembly.

Description

Automatic arrangement feeding device for screws
Technical Field
The utility model relates to the technical field of screw arranging and feeding devices, in particular to an automatic screw arranging and feeding device.
Background
Many existing products are assembled by screws, and before the assembly processes are carried out, workers need to adopt screw arranging and feeding devices to arrange the screws and then feed the screws.
At present, most of common screw arrangement feeding devices utilize a screw box swinging arrangement mode, specifically, a vibrator is assembled in the screw box, the screw box driven to vibrate shakes screws into screw box holes arranged in an array, in the mode, the screw box is required to swing for a long time, the screws can be completely filled in the screw box holes arranged in the whole array, the required time is long, the working efficiency is low, and the production efficiency of subsequent products is severely limited.
Therefore, finding a screw finishing feeder capable of solving the above technical problems is an important subject studied by those skilled in the art.
Disclosure of Invention
The embodiment of the utility model discloses an automatic screw arranging and feeding device which is used for solving the technical problem that the working efficiency of the existing arranging and feeding device for screws is low.
The embodiment of the utility model provides an automatic screw arranging and feeding device, which comprises a storage box and a feeding and conveying track;
an inclined plane for obliquely guiding the screw in the storage box is arranged in the storage box, the feeding conveying track is arranged in the storage box, and the feeding conveying track is connected with a vibrator;
the feeding conveying rail is characterized in that a storage groove for receiving screws sliding obliquely from the inclined surface is formed in the outer side wall of the feeding conveying rail and separated from the inclined surface by a preset distance, a jacking plate for jacking the screws in the storage groove and enabling the screws to slide to the feeding conveying rail is arranged in the storage groove, and the jacking plate is connected with a driving assembly.
Optionally, a first inclined guide surface is arranged on the top surface of the lifting plate, and when the lifting plate is driven to lift the screw in the storage tank to the edge of the feeding conveying track, the first inclined guide surface is used for enabling the screw to slide into the feeding conveying track.
Optionally, a first track plate and a second track plate are arranged in the storage box, the first track plate and the second track plate are separated by a preset distance to form the feeding and conveying track, the second track plate is far away from the outer side wall of the first track plate and separated by a preset distance from the inclined surface to form the storage groove, and the first track plate and/or the second track plate are connected with the vibrator.
Optionally, a first protruding plane is formed on an outer side wall of the first track plate facing the second track plate, the first protruding plane and the second track plate are separated by a preset distance to form the feeding conveying track, and a joint of the top of the first protruding plane and the first track plate is a second inclined guide surface for guiding screws to slide down to the feeding conveying track.
Optionally, the feeding conveying rail is further provided with a distance adjusting assembly for adjusting the distance between the first rail plate and the second rail plate.
Optionally, the spacing adjustment assembly is an adjustment screw;
the first track plate is provided with a threaded hole, the threaded part of the adjusting screw is in threaded connection with the threaded hole, and the tail end part of the adjusting screw penetrates out of the threaded hole and then is connected with the second track plate;
when the adjusting screw is driven to rotate, the second track plate is close to or far away from the first track plate so as to adjust the distance between the second track plate and the first track plate.
Optionally, the second track board is towards be formed with the protruding plane of second on the lateral wall of first track board, the protruding plane laminating of second in first track board is towards on the lateral wall of second track board, the connecting hole has been seted up on the protruding plane of second, the tail end of adjusting screw connect in the connecting hole.
Optionally, a guide rod is connected to the outer side wall of the second track plate facing the first track plate, a guide hole corresponding to the guide rod is formed in the first track plate, and the guide rod is slidably connected in the guide hole;
when the distance between the second track plate and the first track plate is changed, the guide rod and the guide hole relatively slide.
Optionally, a gap is formed in a side wall of the storage box, the feeding conveying rail penetrates out of the storage box from the gap, and an adjusting part for adjusting the placing posture of the screw on the feeding conveying rail is arranged on the inner side wall of the storage box at the gap.
Optionally, the driving component is a crank driving component, and the crank connecting rod driving component comprises a crank, a motor and a connecting rod;
the crank is provided with a rotating end and a free end, the rotating end of the crank is connected with an output shaft of the motor, a first end of the connecting rod is rotationally connected with the free end of the crank, and a second end of the connecting rod is rotationally connected with the jacking plate.
From the above technical solutions, the embodiment of the present utility model has the following advantages:
in this embodiment, wait to arrange in order feeding screw in the magazine in the storage tank slope slip to the storage tank from the inclined plane, the screw jacking in the storage tank is and make this screw landing to the feeding delivery track carry out primary arrangement under drive assembly's drive afterwards, then, the electromagnetic shaker opens, the electromagnetic shaker drives feeding delivery track and produces certain vibration, make the screw on the feeding delivery track carry out secondary arrangement, and the screw will feed forward along feeding delivery track direction, thereby realize the arrangement and the feed of screw. Through foretell design, promote the arrangement feed efficiency to the screw effectively, and then promote the production efficiency of product.
Drawings
In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.
Fig. 1 is a schematic structural diagram of a screw automatic finishing feeding device provided in an embodiment of the utility model;
fig. 2 is a structural cross-sectional view of a screw automatic finishing feeding device provided in an embodiment of the present utility model when a jacking plate is at an initial position;
FIG. 3 is a cross-sectional view of a screw finishing feeder according to an embodiment of the present utility model when a jacking plate is raised to the edge of a feed conveyor rail;
FIG. 4 is a diagram showing the coordination relationship between the adjusting screw and the first and second track boards in the automatic screw arrangement feeding device according to the embodiment of the present utility model;
fig. 5 is a schematic structural view of a notch in a screw automatic finishing feeding device according to an embodiment of the present utility model;
FIG. 6 is an exploded view showing the structure of a feeding track in a screw finishing feeding device according to an embodiment of the present utility model;
fig. 7 is a schematic structural view of a driving assembly in a screw finishing feeding device according to an embodiment of the present utility model;
illustration of: a storage box 1; a notch 101; an inclined surface 2; a feed conveyor rail 3; a first track plate 301; screw holes 3011; a first raised plane 3012; a second inclined guide surface 3013; a guide hole 3014; a second track plate 302; a second raised plane 3021; a connection hole 3022; a jacking plate 4; a first inclined guide surface 401; a drive assembly 5; a motor 501; a crank 502; a link 503; a vibrator 6; an adjusting screw 7; a threaded portion 701; a tail end 702; a storage tank 8; an adjusting section 9; a guide bar 10.
Detailed Description
The embodiment of the utility model discloses an automatic screw arranging and feeding device which is used for solving the technical problem that the working efficiency of the existing arranging and feeding device for screws is low.
In order to better understand the aspects of the present utility model, the present utility model will be described in further detail with reference to the accompanying drawings and detailed description. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1 to 7, an automatic screw arranging and feeding device provided in an embodiment of the utility model includes: a magazine 1 and a feed conveyor track 3;
an inclined plane 2 for obliquely guiding the screw in the storage box 1 is arranged in the storage box 1, the feeding conveying track 3 is arranged in the storage box 1, and the feeding conveying track 3 is connected with a vibrator 6;
a storage groove 8 for receiving the screw sliding obliquely from the inclined surface 2 is formed on the outer side wall of the feeding conveying track 3 at a preset distance from the inclined surface 2, a lifting plate 4 for lifting the screw positioned in the storage groove 8 and sliding the screw to the feeding conveying track 3 is arranged in the storage groove 8, and the lifting plate 4 is connected with a driving assembly 5.
In this embodiment, the screws to be sorted in the storage box 1 slide from the inclined surface 2 into the storage tank 8, then the jacking plate 4 jacks the screws in the storage tank 8 and slides the screws onto the feed conveying track 3 for primary sorting under the driving of the driving component 5, then the vibrator 6 is started, the vibrator 6 drives the feed conveying track 3 to generate certain vibration, the screws on the feed conveying track 3 are subjected to secondary sorting, and the screws are fed forward along the direction of the feed conveying track 3, so that sorting and feeding of the screws are realized. Through foretell design, promote the arrangement feed efficiency to the screw effectively, and then promote the production efficiency of product.
Further, a first inclined guiding surface 401 is disposed on the top surface of the lifting plate 4 in this embodiment, and when the lifting plate 4 is driven to lift the screw in the storage tank 8 to the edge of the feeding and conveying track 3, the first inclined guiding surface 401 is used for the screw to slide down into the feeding and conveying track 3.
In the process of lifting the screw by the lifting plate 4, the lower side of the first inclined guiding surface 401 abuts against the outer side wall of the feeding and conveying rail 3, and when the lifting plate 4 lifts the screw to the edge of the feeding and conveying rail 3, the screw can slide obliquely from the first inclined guiding surface 401 onto the feeding and conveying rail 3 because the lower side of the first inclined guiding surface 401 does not abut against the outer side wall of the feeding and conveying rail 3.
Further, a first track plate 301 and a second track plate 302 are disposed in the storage box 2 in this embodiment, the first track plate 301 and the second track plate 302 are separated by a preset distance to form the feeding and conveying track 3, the second track plate 302 is far away from the outer side wall of the first track plate 301 and separated by a preset distance to form the storage tank 8 with the inclined surface 2, and the first track plate 301 and/or the second track plate 302 are connected with the vibrator 6.
In this embodiment, the vibrator 6 may be disposed on the first track plate 301 or the second track plate 302 alone, or the vibrator 6 may be disposed on both the first track plate 301 and the second track plate 302, which is not limited in this embodiment.
Further, a first protruding plane 3012 is formed on an outer side wall of the first track plate 301 facing the second track plate 302 in this embodiment, the first protruding plane 3012 and the second track plate 302 are separated by a preset distance to form the feeding conveying track 3, and a joint between the top of the first protruding plane 3012 and the first track plate 301 is a second inclined guiding surface 3013 for guiding screws to slide down to the feeding conveying track 3.
By this configuration, when the jacking plate 4 lifts the screw to the feed conveyor rail 3, the second inclined guide surface 3013 guides the disordered screw to the feed conveyor rail 3, thereby completing the primary finishing, and the screw which does not enter the feed conveyor rail 3 rolls back to the stock tank 8.
Further, the feed conveying rail 3 in the present embodiment is also provided with a pitch adjustment assembly for adjusting the distance between the first rail plate 301 and the second rail plate 302.
It should be noted that, through the above-mentioned design, can realize adjusting the interval of feeding conveying track 3 to the feeding conveying track 3 in this embodiment can adapt to the screw of different size specifications, and then makes the application scope of the automatic arrangement feedway of screw in this embodiment wider.
Specifically, the pitch adjustment component in the present embodiment is an adjustment screw 7;
the first track plate 301 is provided with a threaded hole 3011, a threaded portion 701 of the adjusting screw 7 is screwed into the threaded hole 3011, and a tail end 702 of the adjusting screw 7 penetrates through the threaded hole 3011 and is connected to the second track plate 302.
When the adjusting screw 7 is driven to rotate, the second track plate 302 is close to or far from the first track plate 301 to adjust the distance between the second track plate 302 and the first track plate 301. Specifically, when the adjusting screw 7 is driven to rotate in the first preset rotation direction, the second track plate 302 moves in a direction approaching to the first track plate 301 to reduce the distance between the second track plate 302 and the first track plate 301, so that the feeding and conveying track 3 can be suitable for screws with smaller size;
when the adjusting screw 7 is driven to rotate in the second preset rotation direction, the second track plate 302 moves away from the first track plate 301 to increase the distance between the second track plate 302 and the first track plate 301, so that the feeding and conveying track 3 can be suitable for screws with larger sizes.
The first preset rotation direction may specifically be a clockwise rotation direction, and the second preset rotation direction may specifically be a counterclockwise rotation direction. Alternatively, the first preset rotation direction may be a counterclockwise rotation direction, and the second preset rotation direction may be a clockwise rotation direction.
Further, a second protruding plane 3021 is formed on an outer side wall of the second track plate 302 facing the first track plate 301 in this embodiment, the second protruding plane 3021 is attached to an outer side wall of the first track plate 301 facing the second track plate 302, a connection hole 3022 is formed in the second protruding plane 3021, and a tail end of the adjusting screw 7 is connected to the connection hole 3022.
It should be noted that, the second protrusion plane 3021 is specifically located below the first protrusion plane 3012, and by the above design, the space between the first track plate 301 and the second track plate 302 can be made more compact. In addition, the above-mentioned connection hole 3022 is disposed on the second protrusion plane 3021 to meet the depth requirement of the connection hole 3022.
Further, in this embodiment, a guide rod 10 is connected to an outer side wall of the second track plate 302 facing the first track plate 301, a guide hole 3014 corresponding to the position of the guide rod 10 is formed in the first track plate 301, and the guide rod 10 is slidingly connected in the guide hole 3014;
when the distance between the second track plate 302 and the first track plate 301 is changed, the guide rod 10 and the guide hole 3014 slide relatively.
It should be noted that, through the above design, the second track plate 302 can be driven to move more stably and smoothly, so as to ensure the stability of adjusting the feeding conveying track 3.
Further, in this embodiment, a gap 101 is formed on a side wall of the storage box 1, the feeding and conveying rail 3 passes through the storage box 1 from the gap 101, an adjusting portion 9 for adjusting a placement posture of a screw on the feeding and conveying rail 3 is disposed on an inner side wall of the storage box 1 at the gap 101, and specifically, the adjusting portion 9 is a plate-shaped structure protruding from the inner side wall of the storage box 1 at the gap 101.
By the above design, when the vibrator 6 drives the screws on the feeding and conveying track 3 to perform secondary arrangement and drives the screws to advance along the conveying track, the screws pass through the adjusting portion 9, and the adjusting portion 9 can perform posture adjustment on each passing screw, so as to ensure that the postures of the screws on the feeding and conveying track 3 are consistent. Specifically, when the screw advances along the feeding and conveying track 3, the screw may deviate to the left or right, and when the screw passes through the adjusting portion 9, the adjusting portion 9 may collide with the screw having the left deviation or the right deviation, so as to correct the screw posture, so that the screw may keep the vertical posture and continue to advance along the feeding and conveying track 3.
Further, the driving assembly 5 in the present embodiment may employ a variety of different driving assemblies 5, and in particular, the driving assembly 5 in the present example may be a crank-link driving assembly, which includes a crank 502, a motor 501, and a link 503;
the crank 502 has a rotating end and a free end, the rotating end of the crank 502 is connected with the output shaft of the motor 501, the first end of the connecting rod 503 is rotatably connected with the free end of the crank 502, and the second end of the connecting rod 503 is rotatably connected with the jacking plate 4.
It should be noted that, the motor 501 drives the crank 502 to rotate, so as to drive the connecting rod 503 to drive the lifting plate 4 to rise or fall in the storage tank 8.
In addition, the driving assembly 5 in this embodiment may be a jacking cylinder, and a piston rod of the jacking cylinder is connected to the jacking plate 4.
In this embodiment, the lifting cylinder directly drives the lifting plate 4 to lift or lower in the storage tank 8.
Further, the vibrator 6 in the present embodiment may be employed as an ultrasonic vibrator.
It should be noted that the vibrator 6 in this embodiment may be of a different type, and this embodiment is not limited thereto.
The foregoing describes a screw automatic arranging and feeding device provided by the present utility model in detail, and those skilled in the art will appreciate that the present utility model is not limited to the specific embodiments and application ranges given by the concepts of the embodiments of the present utility model.

Claims (10)

1. The automatic screw arranging and feeding device is characterized by comprising a storage box and a feeding and conveying track;
an inclined plane for obliquely guiding the screw in the storage box is arranged in the storage box, the feeding conveying track is arranged in the storage box, and the feeding conveying track is connected with a vibrator;
the feeding conveying rail is characterized in that a storage groove for receiving screws sliding obliquely from the inclined surface is formed in the outer side wall of the feeding conveying rail and separated from the inclined surface by a preset distance, a jacking plate for jacking the screws in the storage groove and enabling the screws to slide to the feeding conveying rail is arranged in the storage groove, and the jacking plate is connected with a driving assembly.
2. The automatic screw arranging and feeding device according to claim 1, wherein a first inclined guide surface is arranged on the top surface of the lifting plate, and is used for enabling screws to slide into the feeding and conveying track when the lifting plate is driven to lift the screws in the storage tank to the edge of the feeding and conveying track.
3. The automatic screw arranging and feeding device according to claim 1, wherein a first track plate and a second track plate are arranged in the storage box, the first track plate and the second track plate are separated by a preset distance to form the feeding and conveying track, the second track plate is far away from the outer side wall of the first track plate and separated by a preset distance to form the storage groove, and the first track plate and/or the second track plate are connected with the vibrator.
4. The automatic screw arranging and feeding device according to claim 3, wherein a first protruding plane is formed on the outer side wall of the first track plate facing the second track plate, the first protruding plane and the second track plate are separated by a preset distance to form the feeding and conveying track, and a joint part between the top of the first protruding plane and the first track plate is a second inclined guide surface for guiding screws to slide to the feeding and conveying track.
5. A screw finishing feeder according to claim 3, wherein the feed conveyor track is further provided with a spacing adjustment assembly for adjusting the distance between the first track plate and the second track plate.
6. The screw finishing feeder of claim 5, wherein the spacing adjustment assembly is an adjustment screw;
the first track plate is provided with a threaded hole, the threaded part of the adjusting screw is in threaded connection with the threaded hole, and the tail end part of the adjusting screw penetrates out of the threaded hole and then is connected with the second track plate;
when the adjusting screw is driven to rotate, the second track plate is close to or far away from the first track plate so as to adjust the distance between the second track plate and the first track plate.
7. The automatic screw arranging and feeding device according to claim 6, wherein a second protruding plane is formed on the outer side wall of the second track plate facing the first track plate, the second protruding plane is attached to the outer side wall of the first track plate facing the second track plate, a connecting hole is formed in the second protruding plane, and the tail end of the adjusting screw is connected in the connecting hole.
8. The automatic screw arranging and feeding device according to claim 5, wherein a guide rod is connected to the outer side wall of the second track plate facing the first track plate, a guide hole corresponding to the guide rod is formed in the first track plate, and the guide rod is slidably connected in the guide hole;
when the distance between the second track plate and the first track plate is changed, the guide rod and the guide hole relatively slide.
9. The automatic screw arranging and feeding device according to claim 1, wherein a notch is formed in the side wall of the storage box, the feeding conveying rail penetrates out of the storage box from the notch, and an adjusting part for adjusting the placing posture of screws on the feeding conveying rail is arranged on the inner side wall of the storage box at the notch.
10. The screw finishing feeder of claim 1, wherein the drive assembly is a crank drive assembly comprising a crank, a motor, and a connecting rod;
the crank is provided with a rotating end and a free end, the rotating end of the crank is connected with an output shaft of the motor, a first end of the connecting rod is rotationally connected with the free end of the crank, and a second end of the connecting rod is rotationally connected with the jacking plate.
CN202223277250.9U 2022-12-07 2022-12-07 Automatic arrangement feeding device for screws Active CN218908842U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202223277250.9U CN218908842U (en) 2022-12-07 2022-12-07 Automatic arrangement feeding device for screws

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202223277250.9U CN218908842U (en) 2022-12-07 2022-12-07 Automatic arrangement feeding device for screws

Publications (1)

Publication Number Publication Date
CN218908842U true CN218908842U (en) 2023-04-25

Family

ID=86046710

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202223277250.9U Active CN218908842U (en) 2022-12-07 2022-12-07 Automatic arrangement feeding device for screws

Country Status (1)

Country Link
CN (1) CN218908842U (en)

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