CN218938010U - Sole bending strength detection device - Google Patents

Abstract

The utility model discloses a sole bending strength detection device, which comprises: the support base is connected to the working platform, a groove and two first sliding grooves are formed in the top of the support base, and the first sliding grooves are symmetrically arranged at the groove and communicated with the groove; the elastic pressing piece is connected to the supporting base, and is used for locally moving along the first sliding groove and pressing the middle part and the heel part of the sole at the groove; the sliding rail is connected to the supporting base, and the top of the sliding rail is lower than the groove; the bottom of the supporting die is movably connected to the sliding rail, and the top of the supporting die supports the sole; the driving piece is connected to the supporting base, the linkage supporting die moves back and forth along the sliding rail to bend the sole; thereby overcoming the technical problem that the quality of the sole is difficult to unify.

Description

Sole bending strength detection device

Technical Field

The utility model relates to the technical field of soles, in particular to a sole bending strength detection device.

Background

Shoes are various, such as sports shoes, leather shoes, leisure shoes and the like, and the shoes generally adopt synthetic rubber soles, so that the shoes are light in weight, soft and good in comfort;

when people walk, the corresponding front sole part of the sole can bend to adapt to the foot of the person, and the long-time bending can cause breakage, so that the bending strength detection is necessary for ensuring the relative uniformity of the quality of the sole, and therefore, the sole bending strength detection device is required.

Disclosure of Invention

Aiming at the defects in the related art, the purpose is to provide a sole bending strength detection device so as to solve the technical problem that the quality of soles in the related art is difficult to unify.

The technical scheme adopted for achieving the purposes is as follows: a sole flexural strength detection device comprising: the support base is connected to the working platform, a groove and two first sliding grooves are formed in the top of the support base, and the first sliding grooves are symmetrically arranged at the groove and communicated with the groove; the elastic pressing piece is connected to the supporting base, and is used for locally moving along the first sliding groove and pressing the middle part and the heel part of the sole at the groove; the sliding rail is connected to the supporting base, and the top of the sliding rail is lower than the groove; the bottom of the supporting die is movably connected to the sliding rail, and the top of the supporting die supports the sole; and the driving piece is connected to the supporting base, is linked with the supporting die to move back and forth along the sliding rail to bend the sole.

Further: the support base includes: the top of the seat body is of a ladder-shaped structure, the shape of the seat body is of an L-shaped structure after being projected from the upper plane to the lower plane, and the seat body is provided with the groove and the first sliding groove; and the two convex edges are oppositely connected to the base body and used for being connected with the working platform.

Further: the elastic pressing member includes: two support columns are connected in the first sliding groove one by one; the two springs are sleeved on the supporting columns one by one and are arranged in the first sliding grooves; the sliding block is in sliding connection with the first sliding groove and is arranged in the groove; the support frame is connected to the support base and spans the groove; and the bolt is in threaded connection with the support frame and presses down the sliding block, the sliding block moves along the first sliding groove to compress the spring, and the sliding block presses the middle part and the heel part of the sole at the groove.

Further: the section of the sliding rail is of an I-shaped structure.

Further: the support die comprises: the first sliding block is in sliding connection with the sliding rail; the bottom of the supporting plate is connected to the first sliding block; and the arc-shaped supporting plate is connected to the top of the supporting plate and is in direct contact with the sole.

Further: the driving member includes: the motor is connected to the supporting base; the connecting joint is connected with the first sliding block; and a connecting rod connecting the motor and the connection joint.

By adopting the technical scheme, the method has the following beneficial effects: compared with the related art, the sole bending strength detection device is provided with a support base, an elastic pressing piece, a sliding rail, a support die and a driving piece; the support base forms a reliable support structure, other parts are arranged, the elastic pressing piece acts, the middle part and the heel part of the sole are pressed at the groove, the driving piece acts, the linkage support die moves back and forth along the sliding rail to bend the front part of the sole, the bending strength of the sole is detected, and the sole quality is relatively uniform; therefore, the technical problem that the quality of the sole is difficult to unify is solved, the technical effect that the bending strength of the sole can be detected and the quality of the sole is relatively unified is achieved, and the sole has practicability.

Drawings

FIG. 1 is a schematic diagram of a general assembly structure;

FIG. 2 is a second schematic diagram of the general assembly structure;

FIG. 3 is a schematic view of the structure of the support base;

FIG. 4 is a partial cross-sectional view of the support base and the resilient compression member;

FIG. 5 is a schematic view of the structure of the elastic pressing member;

FIG. 6 is a schematic diagram of a mold support;

FIG. 7 is a schematic view of the structure of the slide rail, the die carrier and the driving member;

in the figure: 10. support base, 11, recess, 12, first runner, 13, seat, 14, flange, 20, resilient compression member, 21, support post, 22, spring, 23, slider, 24, support bracket, 25, bolt, 30, slide rail, 40, support die, 41, first slider, 42, support plate, 43, arc-shaped pallet, 50, drive member, 51, motor, 52, connection joint, 53, connecting rod, 100, work platform, 200, sole.

Detailed Description

The technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only some embodiments but not all embodiments;

the utility model provides a sole bending strength detection device, has solved the technical problem that the quality of sole in the correlation technique is difficult to unify; can be manufactured and used, and achieves the positive effects of detecting the bending strength of the sole and ensuring the sole quality to be relatively uniform; the overall idea is as follows:

one embodiment is:

see fig. 1, 2, 3; a sole flexural strength detection device comprising: the support base 10 is connected to the working platform 100, a groove 11 and two first sliding grooves 12 are formed in the top of the support base 10, and the first sliding grooves 12 are symmetrically arranged at the groove 11 and communicated with the groove 11; an elastic pressing member 20 connected to the support base 10 to move partially along the first sliding groove 12, and pressing the middle portion and the heel portion of the sole 200 at the recess 11; a slide rail 30 connected to the support base 10, and a top of the slide rail 30 is lower than the groove 11; a supporting die 40, the bottom of which is movably connected to the sliding rail 30, and the top of which supports the sole 200; and a driving member 50 connected to the support base 10, for moving the supporting mold 40 back and forth along the slide rail 30, and bending the sole 200;

specifically, in practice, a supporting base 10, an elastic pressing member 20, a sliding rail 30, a supporting die 40 and a driving member 50 are provided; the support base 10 forms a reliable support structure, other components are arranged conveniently, the elastic pressing piece 20 acts, the middle part and the heel part of the sole 200 are pressed at the groove 11, the driving piece 50 acts, the linked supporting die 40 moves back and forth along the sliding rail 30, the supporting die 40 bends the front part of the sole 200, the bending strength of the sole 200 is detected, and the quality of the sole 200 is relatively uniform;

another embodiment is:

see fig. 1, 2, 3, 4; in practice, the support base 10 comprises: the top of the base body 13 is of a ladder-shaped structure, the shape of the base body is of an L-shaped structure after being projected from the upper surface to the lower surface, and the base body 13 is provided with the groove 11 and the first chute 12; and two flanges 14, which are oppositely connected to the base 13 and are used for being connected with the working platform 100;

the grooves 11 and the first sliding grooves 12 are square grooves, and the volume of the grooves 11 is larger than that of the first sliding grooves 12; a recess 11 is provided, capable of receiving the sole 200; the first chute 12 is provided, forming a guide, which is beneficial for the sliding block 23 to follow the sliding position;

the convex edge 14 is in an L-shaped structure, is welded with the seat body 13 and is used for being connected with the working platform 100 by penetrating a bolt, is convenient to mount and dismount, and the support base 10 forms a reliable support structure, so that other components can be arranged conveniently;

another embodiment is:

see fig. 1, 2, 4, 5; in practice, the elastic pressing member 20 includes: two support columns 21 are connected in the first sliding groove 12 one by one; two springs 22, which are sleeved on the supporting columns 21 one by one and are arranged in the first sliding groove 12; a slider 23 slidably connected to the first chute 12 and disposed in the recess 11; a support frame 24 connected to the support base 10 and crossing the recess 11; the bolt 25 is in threaded connection with the supporting frame 24, presses down the sliding block 23, the sliding block 23 moves along the first sliding groove 12 to compress the spring 22, and the sliding block 23 presses the middle part and the heel part of the sole 200 at the groove 11; the support column 21 is in plugging tight fit with the seat body 13, and the length dimension of the support column 21 is 1/4 of the length dimension of the spring 22, so as to limit the spring 22; the spring 22 is a cylindrical spring; the shape of the sliding block 23 is matched with the shape of the groove 11 and the first sliding groove 12, and the sliding block moves along the first sliding groove 12 to press or loosen the sole 200; the shape of the supporting frame 24 is approximately a 'shaped' structure, and the supporting frame is connected with the supporting base 10 by penetrating bolt pieces, so that a reliable supporting structure is formed; the bolt 25 is an inner hexagon bolt, is in threaded connection with the middle part of the supporting frame 24 and is used for abutting against the sliding block 23, the sliding block 23 moves along the first sliding groove 12 to compress the spring 22, and the sliding block 23 presses the middle part and the heel part of the sole 200 at the groove 11;

another embodiment is:

see fig. 1, 2, 7; in practice, the slide rail 30 has an "I" -shaped cross section, and is connected with the seat 13 by penetrating a bolt member, so as to form sliding guide;

another embodiment is:

see fig. 1, 2, 6, 7; in practice, the die 40 includes: the first slide block 41 is slidably connected with the slide rail 30; a support plate 42 having a bottom connected to the first slider 41; and an arc-shaped pallet 43 connected to the top of the support plate 42, in direct contact with the sole 200; the first sliding block 41 is of a block structure, and the bottom is in sliding connection with the sliding rail 30; the support plate 42 is welded with the first sliding block 41; the arc-shaped supporting plate 43 is welded with the supporting plate 42, and when the arc-shaped supporting plate 43 is in direct contact with the sole 200, the arc-shaped supporting plate 43 guides the front part of the curved sole 200;

another embodiment is:

see fig. 1, 2, 6, 7; in practice, the driving member 50 comprises: a motor 51 connected to the support base 10; a connection joint 52 connected to the first slider 41; and a link 53 connecting the motor 51 and the connection joint 52; the motor 51 is a structure commonly used in the art, such as a horizontal motor, for generating a driving force; the connecting joint 52 has a shape of a T-shaped structure, one end of the connecting joint is connected with the first sliding block 41 by penetrating a bolt, and the other end of the connecting joint is movably connected with the connecting rod 53 by a pin shaft;

the connecting rod 53 comprises two straight rods, the straight rods are movably connected through a pin shaft, one end of the connecting rod 53 is connected with a transmission shaft on the motor 51, and the other end of the connecting rod 53 is movably connected with the connecting joint 52; when the motor 51 acts, one straight rod is linked to rotate, so that the other straight rod is linked to act, and the drawing support die 40 moves back and forth along the sliding rail 30;

another embodiment is:

see fig. 1 and 2; in practice, work platform 100 and sole 200 are commonly used structures in the art; a kind of sole bending strength checkout gear, choose 42 yards of soles, detect for 10 minutes, as the optimal embodiment, according to the different number of yards of the sole, the overall dimension of the apparatus will change too, this is the common sense, but its technical scheme makes up the structure and will not change, it is a complete technical scheme, has solved the technical problem, has achieved the technical effect, one of ordinary skill in the art, after seeing the disclosure, can know how to modify the overall dimension according to the different number of yards of the sole directly, unambiguously, do not need to pay creative work, do not need to carry on the excessive experiment either;

the working principle is as follows: the support base 10 forms a reliable support structure, other components are arranged conveniently, the elastic pressing piece 20 acts, the middle part and the heel part of the sole 200 are pressed at the groove 11, the driving piece 50 acts, the linked supporting die 40 moves back and forth along the sliding rail 30, the supporting die 40 bends the front part of the sole 200, the bending strength of the sole 200 is detected, and the quality of the sole 200 is relatively uniform;

in the description, it should be understood that the terms "upper", "lower", "left", "right", "front", "rear", etc. indicate orientations or positional relationships based on the positional relationships described in the drawings, and are merely for convenience of description or simplification of description, and do not indicate a specific orientation that must be possessed; the operation process described in the embodiment is not an absolute use step, and can be adjusted correspondingly in actual use;

unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art; the terms "first," "second," and the like in the description and in the claims, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another, and likewise, the terms "a" or "an" and the like do not necessarily denote a limitation of quantity, but rather denote the presence of at least one of the components, and the terms "a" or "an" and the like, as appropriate for the context of the embodiments;

the above description is only of the preferred embodiments, but the protection scope is not limited thereto, and any person skilled in the art should be able to apply equivalent substitutions or alterations to the disclosed technical solution and the inventive concept thereof within the scope of protection.

Claims (6)

1. A sole flexural strength detection device, comprising: the support base (10) is connected to the working platform (100), a groove (11) and two first sliding grooves (12) are formed in the top of the support base (10), and the first sliding grooves (12) are symmetrically arranged at the groove (11) and are communicated with the groove (11); the elastic pressing piece (20) is connected to the supporting base (10) and is used for locally moving along the first sliding groove (12) to press the middle part and the heel part of the sole (200) at the groove (11); the sliding rail (30) is connected to the supporting base (10), and the top of the sliding rail (30) is lower than the groove (11); the bottom of the supporting die (40) is movably connected to the sliding rail (30), and the top of the supporting die supports the sole (200); and a driving part (50) connected to the support base (10) and linking the back-and-forth movement position of the supporting die (40) along the slide rail (30), and bending the sole (200).

2. The sole flexural strength testing device of claim 1 wherein: the support base (10) comprises: the top of the seat body (13) is of a ladder-shaped structure, the shape of the seat body is of an L-shaped structure after being projected from the top to the bottom, and the seat body (13) is provided with the groove (11) and the first sliding groove (12); and two convex edges (14) which are oppositely connected to the base body (13) and are used for being connected with the working platform (100).

3. The sole flexural strength testing device of claim 1 wherein: the elastic pressing member (20) includes: two support columns (21) are connected in the first sliding groove (12) one by one; two springs (22) are sleeved on the supporting columns (21) one by one and are arranged in the first sliding groove (12); a slide block (23) which is in sliding connection with the first chute (12) and is arranged in the groove (11); a support frame (24) connected to the support base (10) and crossing the groove (11); and a bolt (25) in threaded connection with the support frame (24) and pressing down the sliding block (23), wherein the sliding block (23) moves along the first sliding groove (12) to compress the spring (22), and the sliding block (23) presses the middle part and the heel part of the sole (200) at the groove (11).

4. The sole flexural strength testing device of claim 1 wherein: the section of the sliding rail (30) is of an I-shaped structure.

5. The sole flexural strength testing device of claim 1 wherein: the die (40) includes: the first sliding block (41) is in sliding connection with the sliding rail (30); a support plate (42) with the bottom connected to the first slider (41); and an arc-shaped pallet (43) connected to the top of the support plate (42) in direct contact with the sole (200).

6. The sole flexural strength testing device of claim 5 wherein: the driving member (50) includes: a motor (51) connected to the support base (10); a connection joint (52) connected to the first slider (41); and a link (53) connecting the motor (51) and the connection joint (52).

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