CN109171118B - Riveting mechanism for shoe eyelet on shoe - Google Patents

Abstract

The invention discloses a riveting mechanism for shoe upper eyelets, which comprises an upper pressure plate, wherein a positioning column is inserted into the upper pressure plate, the lower end of the positioning column extends out of the upper pressure plate and is formed with a bottom spline hole, a spline shaft is inserted into the bottom spline hole, the spline shaft is formed in the center of the lower pressure plate, a guide pillar is formed on the lower pressure plate, the guide pillar is inserted into the upper pressure plate, a second pressure spring is inserted and sleeved on the guide pillar, and two ends of the second pressure spring are fixed on a stop block and the upper pressure plate; the shaping has articulated seat on the lateral wall of going up the pressure disk, and articulated preceding branch that has on articulated seat has back branch, and the shaping has the handle on preceding, and the shaping has a journal stirrup on going up the pressure disk, and it has the gag lever post to peg graft on the journal stirrup, and the gag lever post is fixed on the handle, and plug bush has the third pressure spring on the gag lever post, and the shaping has the guide way on the back branch, and the shaping of pressure disk has the connecting seat down, and the shaping has the guide bar on the connecting seat, and the guide bar is pegged graft in the guide way. The riveting device can conveniently realize the riveting of the eyelets on the shoes, and the eyelets are less in time consumption and high in efficiency in installation.

Description

Riveting mechanism for shoe eyelet on shoe

The technical field is as follows:

the invention relates to the technical field of shoemaking machinery, in particular to a riveting mechanism for eyelets on shoes.

Background art:

shoes are a necessity for people to wear in daily life. Some shoes need to be provided with the shoelace and carry out the frenulum to be equipped with the rope hole on the vamp of requirement shoes, and need protect the rope hole after the vamp is perforated, generally can install the eyelet of metal material on the rope hole, avoid the rope hole to be drawn greatly by the shoelace. The eyelets are generally fixed on the vamp in a riveting mode, the eyelets are knocked by tools such as a hammer and the like in the conventional manual shoe making process to realize riveting, and long time is consumed for installing the eyelets in the knocking mode.

In view of the above-mentioned drawbacks, the present inventors have made active research and innovation to create a new riveting mechanism for shoe eyelets of shoes, so that the riveting mechanism has more industrial utility value.

The invention content is as follows:

the invention aims to solve the problems in the prior art and provides a riveting mechanism for shoe eyelets on shoes, which is convenient to rivet and press the shoe eyelets, consumes less time for installing the shoe eyelets and is high in efficiency.

The invention relates to a riveting mechanism for eyelets on shoes, which comprises an upper pressure plate, wherein a central hole is formed in the upper pressure plate, a vertical positioning column is inserted in the central hole, the upper part of the positioning column extends out of the upper pressure plate and is inserted on a positioning plate, a baffle plate is formed at the upper end of the positioning column, a first pressure spring is inserted on the positioning column in a sleeved mode, two ends of the first pressure spring are respectively fixed on the baffle plate and the positioning plate, the lower end of the positioning column extends out of the upper pressure plate and is provided with a bottom spline hole, a spline shaft is inserted in the bottom spline hole, the spline shaft is formed in the center of the upper end face of a lower pressure plate, an arc concave face is formed on the upper end face of the lower pressure plate around the spline shaft, a semicircular annular groove is formed on the lower end face of the upper pressure plate, a plurality of vertical upward guide columns are formed on the side wall of the lower pressure plate, a second pressure spring is sleeved on the guide post in an inserting manner, and two ends of the second pressure spring are respectively fixed on the stop block and the upper end surface of the upper pressure plate;

the side wall of the upper pressure plate is formed with a hinge seat, the hinge seat is hinged with an inclined front support rod through a hinge shaft, two opposite side walls at one end of the front support rod are formed with inclined rear support rods, one end of each rear support rod is formed with an inclined handle, a support lug is formed on the side wall of the upper pressure plate on the upper side of the handle, which is opposite to the hinge seat, a strip-shaped slot is formed in the support lug, a T-shaped limiting rod is inserted in the slot, the tail end of the limiting rod is fixed on the handle, the head end of the limiting rod penetrates out of the slot and is far away from the slot and is provided with an iron layer, a magnet layer matched with the iron layer is arranged on the upper end face of the support lug, a third pressure spring is inserted and sleeved on the limiting rod, two ends of the third pressure spring are respectively fixed on the support lug and the handle, a guide groove is formed on the rear support rod, a connecting seat is formed on the lower end, guide rods are formed on two opposite side walls of the connecting seat and are inserted in the guide grooves.

By the technical scheme, when the shoe cover is used, the handle is pressed downwards, the third pressure spring deforms to store elastic potential energy, the rear support rod drives the lower pressure plate to move downwards through the connecting seat, the spline shaft of the lower pressure plate moves downwards along the bottom spline hole of the positioning column, the guide pillar moves downwards to enable the second pressure spring to compress and store the elastic potential energy, the rear support rod and the front support rod rotate downwards around the hinge seat, the guide groove rotates along the guide rod, the limiting rod on the handle moves downwards along the slot of the support lug until the iron layer on the limiting rod is adsorbed on the magnet layer of the support lug, the lower pressure plate is positioned in a state of leaving the positioning column, the shoe hole which is not riveted is inserted into the shoe hole of the shoe cover, the positioning column is inserted into the shoe hole, the head end of the limiting rod is pulled out of the support lug by force, and the guide pillar moves upwards to drive the spline shaft to be inserted into the bottom spline hole of the positioning column again under the action of releasing the elastic potential energy, then the handle is pressed to the top makes lower pressure disk and reference column rise, first pressure spring this moment, second pressure spring and third pressure spring all warp storage elastic potential energy, through lower pressure disk and last pressure disk pressfitting, realize the riveting to the eyelet, and the annular groove on the terminal surface is corresponding with the eyelet under the last pressure disk, can make the eyelet riveting ground more firm, release the handle after accomplishing the riveting, the reference column, lower pressure disk, back branch and preceding branch reset under the combined action of first pressure spring, second pressure spring and third pressure spring release elastic potential energy, pull down the pressure disk from the reference column at last, take out shoes.

Through the scheme, the riveting mechanism for the shoe upper eyelet is convenient to rivet the shoe upper eyelet, time consumption for installing the shoe eyelet is low, and efficiency is high.

Preferably, the central axis of the annular groove coincides with the central axis of the upper platen, and the central axes of the upper platen, the lower platen and the positioning column are all located on the same vertical line.

Preferably, the guide slot is parallel to the rear support rod, the guide rod is a round rod, and the diameter of the guide rod is equal to the width of the guide slot.

Preferably, a plurality of connecting columns are arranged on the periphery of the positioning column, and two ends of each connecting column are respectively fixed on the upper pressing plate and the positioning plate.

Preferably, the lower platen is formed with three guide posts, the guide posts are uniformly distributed around the center of the lower platen in an annular shape, and the guide posts surround the connecting posts.

Preferably, the diameter of the central hole of the upper platen is larger than the diameter of the positioning column.

Preferably, the length of the spline shaft is equal to the depth of the bottom spline hole.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Description of the drawings:

the drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the partial cross-sectional structure of FIG. 1;

FIG. 3 is a schematic top view of the portion of FIG. 1;

fig. 4 is a schematic top view of the upper platen according to the present invention.

The specific implementation mode is as follows:

the following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1, 2 and 4, the shoe eyelet riveting mechanism of the invention comprises an upper platen 1, wherein a central hole 11 is formed in the upper platen 1, a vertical positioning column 2 is inserted in the central hole 11, the aperture of the central hole 11 is larger than the diameter of the positioning column 2, the upper part of the positioning column 2 extends out of the upper platen 1 and is inserted in a positioning disc 3, a plurality of connecting columns 21 are arranged around the positioning column 2, two ends of each connecting column 21 are respectively fixed on the upper platen 1 and the positioning disc 3, a baffle 22 is formed at the upper end of the positioning column 2, a first pressure spring 41 is inserted in the positioning column 2, two ends of the first pressure spring 41 are respectively fixed on the baffle 22 and the positioning disc 3, the lower end of the positioning column 2 extends out of the upper platen 1 and is formed with a bottom spline hole 23, a spline shaft 51 is inserted in the bottom spline hole 23, the length of the spline shaft 51 is equal to the depth of the bottom spline, the integral press comprises a spline shaft 51, a semicircular annular groove 12, an annular groove 12, a central axis of the upper press plate 1, an upper press plate 1, a lower press plate 5 and a positioning column 2, wherein the spline shaft 51 is formed in the center of the upper end face of the lower press plate 5, the upper end face of the lower press plate 5 around the spline shaft 51 is formed with an arc concave surface 52, the lower end face of the upper press plate 1 is formed with a semicircular annular groove 12, the central axis of the annular groove 12 coincides with the central axis of the upper press plate 1, the central axes of the upper press plate 1, the lower press plate 5 and the positioning column 2 are all located on the same vertical line, three upright guide columns 53 are formed on the side wall of the lower press plate 5, the guide columns 53 are inserted and connected to the side of the upper press plate 1, the guide columns 53 surround a connecting column 21, a circular stop block 531.

Referring to fig. 1 to 4, a hinge seat 6 is formed on the side wall of the upper platen 1, a front support rod 71 which is obliquely arranged is hinged on the hinge seat 6 through a hinge shaft 61, rear support rods 72 which are obliquely arranged are formed on two opposite side walls of one end of the front support rod 71, a handle 73 which is obliquely arranged is formed at one end of each rear support rod 72, a support lug 13 is formed on the side wall of the upper platen 1 which is opposite to the hinge seat 6 and is arranged on the upper side of the handle 73, a strip-shaped slot 131 is formed on each support lug 13, a T-shaped limit rod 8 is inserted into each slot 131, the tail end of each limit rod 8 is fixed on the handle 73, the head end of each limit rod 8 penetrates out of the slot 131 and is far away from the slot 131 and is provided with an iron layer 91, a magnet layer 92 which is matched with the iron layer 91 is arranged on the upper end face of each support lug 13, a third compression spring 43 is inserted and sleeved on each limit rod 8, the rear supporting rod 72 is formed with a guide slot 721, the lower end surface of the lower pressing plate 5 is formed with a connecting seat 54, the lower end of the connecting seat 54 is inserted between the rear supporting rods 72, two opposite side walls of the connecting seat 54 are formed with guide rods 541, the guide rods 541 are inserted in the guide slots 721, the guide slots 721 are parallel to the rear supporting rods 72, the guide rods 541 are round rods, and the diameter of the guide rods 541 is equal to the width of the guide slots 721.

When the invention is implemented, firstly, the handle 73 is pressed downwards, the third pressure spring 43 is deformed to store elastic potential energy, so that the rear support rod 72 drives the lower pressure plate 5 to move downwards through the connecting seat 54, the spline shaft 51 of the lower pressure plate 5 moves downwards along the bottom spline hole 23 of the positioning column 2, the guide post 53 moves downwards to enable the second pressure spring 42 to compress and store elastic potential energy, the rear support rod 72 and the front support rod 71 rotate downwards around the hinge seat 6, the guide groove 721 rotates along the guide rod 541, the limiting rod 8 on the handle 73 moves downwards along the slot 131 of the support lug 13 until the iron layer 91 on the limiting rod 8 is adsorbed on the magnet layer 92 of the support lug 13, so that the lower pressure plate 5 is positioned in a state of leaving the positioning column 2, then the shoe hole which is not riveted is inserted in the shoe upper, then the positioning column 2 is inserted in the shoe hole, then the head end of the limiting rod 8 is pulled out of the support lug 13 with force, and under the action of releasing elastic potential energy of the second pressure spring, the guide post 53 moves up to drive the spline shaft 51 of the lower pressure plate 5 to be inserted into the spline hole 23 at the bottom of the positioning column 2 again, then the upper pressure handle 73 enables the lower pressure plate 5 and the positioning column 2 to ascend, at the moment, the first pressure spring 41, the second pressure spring 42 and the third pressure spring 43 all deform to store elastic potential energy, riveting of eyelets is achieved through pressing of the lower pressure plate 5 and the upper pressure plate 1, the annular groove 12 in the lower end face of the upper pressure plate 5 corresponds to the eyelets, riveting of the eyelets can be firmer, the handle 73 is released after riveting is completed, the positioning column 2, the lower pressure plate 5, the rear support rod 72 and the front support rod 71 reset under the combined action of elastic potential energy release of the first pressure spring 41, the second pressure spring 42 and the third pressure spring 43, finally the lower pressure plate 5 is pulled down from the positioning column 3, and the shoes.

In conclusion, the riveting mechanism for the shoe eyelet on the shoe is convenient to rivet the shoe eyelet on the shoe, the time consumption for installing the shoe eyelet is low, and the efficiency is high.

The riveting mechanism for the eyelets on shoes provided by the present invention is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (6)

1. The utility model provides a riveting mechanism of eyelet on shoes, includes pressure disk (1), its characterized in that: the upper pressure plate is formed with a central hole (11), a vertical positioning column (2) is inserted in the central hole, the upper part of the positioning column extends out of the upper pressure plate (1) and is inserted in the positioning disc (3), a baffle (22) is formed at the upper end of the positioning column (2), a first pressure spring (41) is inserted in the positioning column (2), two ends of the first pressure spring respectively abut against the baffle (22) and the positioning disc (3), the lower end of the positioning column (2) extends out of the upper pressure plate (1) and is formed with a bottom spline hole (23), a spline shaft (51) is inserted in the bottom spline hole (23), the spline shaft (51) is formed in the center of the upper end face of the lower pressure plate (5), a circular arc concave surface (52) is formed on the upper end face of the lower pressure plate (5) around the spline shaft (51), and a semicircular annular groove (12) is formed on the lower end face of the upper pressure plate, a plurality of guide posts (53) which are vertically upward are formed on the side wall of the lower pressure plate (5), the guide posts are inserted into the side edge of the upper pressure plate (1), a circular stop block (531) is formed at the upper end of each guide post (53), a second pressure spring (42) is inserted and sleeved on each guide post (53), and two ends of each second pressure spring are respectively fixed on the stop block (531) and the upper end surface of the upper pressure plate (1);

the side wall of the upper pressure plate (1) is provided with a hinge seat (6) in a forming manner, the hinge seat is hinged with a front support rod (71) which is obliquely arranged through a hinge shaft (61), two opposite side walls at one end of the front support rod are provided with rear support rods (72) which are obliquely arranged, one end of each rear support rod is provided with a handle (73) which is obliquely arranged, the side wall of the upper pressure plate (1) at the upper side of the handle opposite to the hinge seat (6) is provided with a support lug (13) in a forming manner, a strip-shaped slot (131) is formed in each support lug, a T-shaped limiting rod (8) is inserted in each slot, the tail end of each limiting rod is fixed on the handle (73), the head end of each limiting rod (8) penetrates out and is far away from the slot (131) and is provided with an iron layer (91), a magnet layer (92) matched with the iron layer (91) is arranged on the upper end face of each support lug (13, two ends of the third pressure spring are respectively fixed on the support lug (13) and the handle (73), a guide groove (721) is formed on the rear support rod (72), a connecting seat (54) is formed on the lower end face of the lower pressure plate (5), the lower end of the connecting seat is inserted between the rear support rods (72), guide rods (541) are formed on two opposite side walls of the connecting seat (54), and the guide rods are inserted in the guide grooves (721);

the central axis of the annular groove (12) coincides with the central axis of the upper pressure plate (1), and the central axes of the upper pressure plate (1), the lower pressure plate (5) and the positioning column (2) are all located on the same vertical line.

2. The mechanism of claim 1, wherein: the guide groove (721) is parallel to the rear supporting rod (72), the guide rod (541) adopts a round rod, and the diameter of the guide rod (541) is equal to the width of the guide groove (721).

3. The mechanism of claim 1, wherein: a plurality of connecting columns (21) are arranged on the periphery of the positioning column (2), and two ends of each connecting column (21) are respectively fixed on the upper pressure plate (1) and the positioning plate (3).

4. The mechanism of claim 3, wherein: three guide posts (53) are formed on the lower pressure plate (5), the guide posts are uniformly distributed around the center of the lower pressure plate (5) in an annular shape, and the guide posts (53) surround the connecting post (21).

5. The mechanism of claim 1, wherein: the hole diameter of the central hole (11) of the upper pressure plate (1) is larger than the diameter of the positioning column (2).

6. The mechanism of claim 1, wherein: the length of the spline shaft (51) is equal to the depth of the bottom spline hole (23).

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