CN215092945U - Shoe mold positioning device - Google Patents

Abstract

The utility model belongs to mould automated production field, in particular to shoe mold positioner. The utility model discloses a shoe mold positioning device, which comprises a correcting structure, wherein the correcting structure comprises a positioning part and a correcting part, and the positioning part is connected with the correcting part through a telescopic part; the positioning part comprises a positioning plate, a guide arm and a guide pulley; the shoe mold comprises a shoe mold base, and the shoe mold base comprises a base front end and a base rear end; the locating plate with base rear end shape size phase-match, the locating plate both sides set up the guide arm, the guide arm to the shoes mould base slope, the guide arm is close to one side of shoes mould base sets up one row the guide pulley. Through the utility model discloses can realize the accurate location of shoe mold to do not use centre gripping equipment to clip the shoe mold edge, be convenient for 360 polish, effectively improve the production efficiency of shoe mold.

Description

Shoe mold positioning device

Technical Field

The utility model belongs to mould automated production field, in particular to shoe mold positioner.

Background

With the continuous development of intelligent science, people rely on automatic equipment for production operation, for example, the production of various shoes is highly dependent on shoe molds, so the requirement on the production process of the shoe molds is higher and higher. In the production of the shoe mold, the shoe mold needs to be precisely polished.

The shoe mold is generally placed at a designated position in the prior art, then the edge of the shoe mold is clamped by clamping equipment, polishing is carried out by polishing equipment, but polishing is generally carried out by 360-degree polishing on the shoe mold, the edge of the shoe mold is clamped by the clamping equipment in the prior art, so that polishing is incomplete, the clamping position needs to be changed for secondary polishing, and the production efficiency of the shoe mold is greatly reduced.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the utility model discloses a shoe mold positioning device, which comprises a correcting structure, wherein the correcting structure comprises a positioning part 51 and a correcting part 52, and the positioning part 51 is connected with the correcting part 52 through a telescopic part; the positioning part 51 includes a positioning plate 511, a guide arm 512, and a guide pulley 513; the shoe mold comprises a shoe mold base 41 comprising a base front end 411 and a base rear end 412; the positioning plate 511 and the base rear end 412 are matched in shape and size, guide arms 512 are arranged on two sides of the positioning plate 511, the guide arms 512 incline towards the shoe mold base 41, and one row of guide pulleys 513 are arranged on one side, close to the shoe mold base 41, of the guide arms 512.

Further, shoe mold positioner still includes vacuum adsorption structure 3, vacuum adsorption structure 3 includes riser 31, disc 32 and first vacuum chuck 33, first vacuum chuck 33 has two, riser 31 one end is connected disc 32, the another side of disc 32 sets up two first vacuum chuck 33, and two the connecting line of first vacuum chuck 33 with the axis of shoe mold base 41 parallels.

Further, a groove 43 is formed in the bottom of the shoe mold base 41, a second vacuum suction cup 34 is arranged on the same surface of the disc 32 as the first vacuum suction cup 33, the second vacuum suction cup 34 is connected with the disc 32 through a connecting rod 35, the length of the connecting rod 35 is the same as the depth of the groove 43, and the size of the second vacuum suction cup 34 corresponds to the size of the cross section of the groove 43.

Furthermore, there are two grooves 43 uniformly and respectively on the central axis of the shoe mold base 41, and there are two vacuum adsorption structures 3 respectively corresponding to the grooves.

Further, shoe mold location structure still includes base 1, support 2 installs on base 1, support 2 has threely, base 1 both ends respectively set up one support 2, base 1 middle part sets up a support 2, shoe mold base 41 is placed support 2 upper end.

Further, two vacuum adsorption structures 3 are respectively located between the middle support 2 and the adjacent support 2.

The utility model discloses a have a bit as follows:

the positioning part 51 and the correcting part 52 are matched to realize accurate positioning;

further, fix the shoe mould base 41 bottom through vacuum adsorption structure 3, avoided using the clamping part to fix the shoe mould, once accomplish 360 all sides and polish.

Further, the shoe mold is fixed by the vacuum absorption structure through the cooperation between the groove 43 and the second vacuum suction cup 34. And the vacuum suction structure enables better fixing of the shoe mold by the triangular distribution between the first vacuum suction cup 33 and the second vacuum suction cup 34.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic perspective view of a middle shoe mold, a base, and a vacuum adsorption structure;

FIG. 2 shows a bottom view between the shoe mold base 41 and the sizing structure;

fig. 3 shows a three-dimensional structure of the vacuum adsorption structure 3 of the present invention.

In the figure: 1-base, 2-support, 3-vacuum adsorption structure, 31-lifter, 32-disc, 33-first vacuum sucker, 34-second vacuum sucker, 35-connecting rod, 41-shoe mold base, 411-base front end, 412-base rear end, 42-model, 43-groove, 51-positioning part, 511-positioning plate, 512-guide arm, 513-guide pulley and 52-correcting part

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are 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 some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses a shoe mold positioning device, positioning device includes base 1, support 2 and vacuum adsorption structure 3. Fig. 1 shows a schematic structural diagram among the base 1, the bracket 2, the vacuum adsorption structure 3 and the shoe mold, as shown in the figure. And a support 2 is fixedly arranged on the base 1. Illustratively, the number of the brackets 2 is three, the brackets 2 are respectively arranged at two ends of the base 1, and one bracket 2 is arranged in the middle of the base 1. The vacuum adsorption structure 3 is arranged on the base 1. Preferably, the number of the vacuum adsorption structures 3 is two, the two adsorption structures 3 are respectively positioned between the middle support 2 and the adjacent support 2, and the shoe mold is placed on the upper portion of the support 2.

The shoe mold comprises a shoe mold base 41 and a model 42, wherein the shoe mold base 41 comprises a base front end 411 and a base rear end 412, and the base front end 411 and the base rear end 412 are rectangular planes in an exemplary manner. The upper plane of the shoe mould base 41 is fixedly connected with the model 42.

The shoe mold positioning device further comprises a correcting structure, and the correcting structure comprises a positioning part 51 and a correcting part 52. The positioning part 51 includes a positioning plate 511, a guide arm 512, and a guide pulley 513. Figure 2 shows a bottom view between the shoe mold base 41 and the sizing structure. As shown in the figure, the shape and size of the positioning plate 511 are matched with the shape and size of the rear end 412 of the base, guide arms 512 are arranged on two sides of the positioning plate 511, the guide arms 512 incline towards the shoe mold base 41, and a row of guide pulleys 513 is arranged on one side of the guide arms 512, which is close to the shoe mold base 41. The guide pulleys 513 are closely arranged and are all mounted on the side wall of the guide arm 512 close to one side of the shoe mold base 41.

The alignment structure and the shoe mold base 41 are located on the same horizontal plane. Illustratively, the positioning part 51 is connected to the base 1 through a support rod, and is located on the axis of the shoe mold base 41. The regulating portion 52 can move closer to and away from the positioning portion 51, and the positioning plate 511 is disposed in parallel with the regulating portion 52. For example, the positioning portion 52 and the positioning portion 51 are connected by a telescopic member, and when the positioning portion 51 and the positioning portion 52 are not subjected to an external force, a distance between the positioning portion 52 and the positioning plate 511 is a length of the shoe mold bottom plate 41.

Specifically, when the shoe mold needs to be corrected, the telescopic member is extended, the correcting portion 52 moves away from the positioning portion 51, the shoe mold is placed on the bracket 2, the telescopic member is shortened, and the correcting portion 52 drives the shoe mold base 41 to move towards the positioning portion 51. When the regulation portion 52 drives the shoe mold base 41 to the motion of location portion 51, because the effect of water conservancy diversion pulley 513, shoe mold base 41 not only does and is close to location portion 51's horizontal motion, moreover shoe mold base 41's horizontal axis constantly to the motion of locating plate 511's horizontal axis, finally locating plate 511's horizontal axis with shoe mold base 41's horizontal axis coincides mutually. Because the positioning plate 511 is fixed in position and the size and shape of the positioning plate 511 are matched with the rear end 412 of the base, the shoe mold can accurately reach a designated position after being regulated.

A groove 43 is provided at the bottom of the shoe mold base 41. Illustratively, the grooves 43 are circular, and further, there are two grooves 43, and the two grooves 43 are uniformly distributed at the bottom of the shoe mold base 41.

Fig. 3 shows a three-dimensional structure of the vacuum adsorption structure 3 of the present invention. The vacuum suction structure 3 includes a lifter 31, a puck 32, a first vacuum cup 33, and a second vacuum cup 34. The one end fixed mounting of riser 31 is in on the base 1, the other end of riser 31 is connected the disc 32, the disc 32 another side sets up first vacuum chuck 33, second vacuum chuck 34 through cylindrical connecting rod 35 with the disc middle part is connected, the length of connecting rod 35 with the degree of depth of recess 43 is the same, the size of second vacuum chuck 34 with recess 43 cross section size is corresponding. Preferably, there are two first vacuum suction cups 33, and a connecting line of the two first vacuum suction cups 33 is parallel to an axis of the shoe mold base 41.

The lifter 31 drives the disc 32 to move up and down, so that the first vacuum chuck 33 and the second vacuum chuck 34 can move up and down, the position of the positioning plate 511 is adjusted, the central axis of the groove 43 coincides with the central axis of the second vacuum chuck 34, the connecting rod 35 just extends into the groove 43 to be adsorbed and fixed, the connecting line of the two first vacuum chucks 33 is parallel to the axis of the shoe mold base 41, so that the contact area between the chucks and the bottom of the shoe mold base 41 is increased, and the central points of the two first vacuum chucks 33 and the second vacuum chuck 34 are connected into a triangle, so that the stability of the device is increased, and the adsorption is more firm.

The working principle of the utility model is as follows,

firstly, the adjusting operation is performed, the telescopic component is extended, the adjusting portion 52 moves in a direction away from the positioning portion 51, the shoe mold is placed on the bracket 2, the shoe mold base 41 faces downward, the base rear end 412 faces the positioning portion 51, the base front end 411 faces the adjusting portion 52, the adjusting portion 52 is loosened slowly, the adjusting portion 52 drives the shoe mold to move close to the positioning portion 51, the base rear end 412 is continuously close to the positioning plate 511 along the guide arm 512 under the action of the guide pulley 513, finally, the central axis of the shoe mold is overlapped with the central axis of the positioning plate 511, and the base rear end 412 is tightly attached to the positioning plate 511. At this time, the central axis of the groove 43 of the shoe mold base 41 coincides with the central axis of the second vacuum chuck 34.

Then, a suction operation is performed, the lifter 31 drives the disc 32 to ascend, the second vacuum suction cups 34 extend into the grooves 43 and suck the upper plane of the grooves 43, and the two first vacuum suction cups 33 respectively suck the lower plane of the shoe mold base 41. If the second vacuum chuck 34 cannot smoothly extend into the groove 43, the regulation operation is unqualified, the regulation operation is performed again, and whether the second vacuum chuck 34 can be lifted into the groove 43 can be verified; if the second vacuum chuck 34 can smoothly enter the groove 43, the lifter 31 continues to ascend to drive the shoe mold to separate from the plane of the regular structure, so as to polish the shoe mold in all directions.

Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (6)

1. A shoe mold positioning device, which is characterized in that,

the shoe mold positioning device comprises a correcting structure, the correcting structure comprises a positioning part (51) and a correcting part (52), and the positioning part (51) is connected with the correcting part (52) through a telescopic component;

the positioning part (51) comprises a positioning plate (511), a guide arm (512) and a guide pulley (513);

the shoe mold comprises a shoe mold base (41), and the shoe mold base comprises a base front end (411) and a base rear end (412);

the positioning plate (511) with base rear end (412) shape size phase-match, positioning plate (511) both sides set up guide arm (512), guide arm (512) to shoe mold base (41) slope, guide arm (512) are close to shoe mold base (41) one side sets up one row guide pulley (513).

2. The shoe mold positioning device according to claim 1,

shoe mold positioner still includes vacuum adsorption structure (3), vacuum adsorption structure (3) include riser (31), disc (32) and first vacuum chuck (33), first vacuum chuck (33) have two, riser (31) one end is connected disc (32), the another side of disc (32) sets up two first vacuum chuck (33), and two the connecting wire of first vacuum chuck (33) with the axis of shoe mold base (41) parallels.

3. The shoe mold positioning device according to claim 2,

shoe mold base (41) bottom sets up recess (43), disc (32) with set up second vacuum chuck (34) on first vacuum chuck (33) the same face, second vacuum chuck (34) through connecting rod (35) with disc (32) are connected, the length of connecting rod (35) with the degree of depth of recess (43) is the same, the size of second vacuum chuck (34) with recess (43) cross section size is corresponding.

4. The shoe mold positioning device according to claim 3,

the number of the grooves (43) is two, the grooves are uniformly and respectively arranged on the central axis of the shoe mold base (41), and the number of the vacuum adsorption structures (3) is two, and the vacuum adsorption structures respectively correspond to the grooves.

5. The shoe mold positioning device according to any one of claims 2 to 4,

shoe mold positioner still includes base (1), support (2), install support (2) on base (1), support (2) have threely, base (1) both ends respectively set up one support (2), base (1) middle part sets up one support (2), shoe mold base (41) are placed support (2) upper end.

6. The shoe mold positioning device according to claim 5,

the two vacuum adsorption structures (3) are respectively positioned between the middle bracket (2) and the adjacent bracket (2).

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