CN112602992A - Sole groove processingequipment for shoemaking - Google Patents

Abstract

The invention discloses a shoe sole groove processing device for shoemaking, which comprises a frame body, wherein a left-right moving mechanism is arranged on a top plate at the top of the frame body, the left side of the left-right moving mechanism is connected with a first slide bar, the left end of the first slide bar is connected with a swing bar in a supporting manner, the swing bar is hinged on a side frame of the frame body, the lower end of the swing bar is connected with a second slide bar in a supporting manner, the right end of the second slide bar is connected with a shoe sole placing mechanism, the shoe sole placing mechanism slides at the bottom of the frame body, the shoe sole placing mechanism is positioned below the left-right moving mechanism, a guide mechanism is arranged between the shoe sole placing mechanism and the left-right moving mechanism, the guide mechanism is connected on a guide plate arranged at one side in the side frame in a sliding manner, the top of the guide mechanism, the invention has the advantages of high processing accuracy and high processing efficiency.

Description

Sole groove processingequipment for shoemaking

Technical Field

The invention relates to a shoemaking technology, in particular to a shoemaking sole groove processing device.

Background

The sole is the very important partly of shoes, and the structure is complicated, and generally speaking, the sole includes outsole and insole, and the outsole will have good wearability, antiskid nature and waterproof nature etc. through processing the slot at the sole, not only can effectively improve anti-skidding effect, can also reduce the contact of water and insole to improve waterproof nature, but current sole slot processing device is the manual operation completion, and not only inefficiency, and produce the processing deviation easily.

Disclosure of Invention

In view of the above, the present invention provides a device for processing a groove on a sole of a shoe to solve the above technical problems.

In order to achieve the purpose, the invention provides the following technical scheme:

a shoe sole groove processing device for shoemaking comprises a frame body, wherein a left-right moving mechanism is arranged on a top plate at the top of the frame body, the left side of the left-right moving mechanism is connected with a first slide bar, the left end of the first slide bar is connected with a swing rod in a supporting manner, the swing rod is hinged to a side frame of the frame body, the lower end of the swing rod is connected with a second slide bar in a supporting manner, the right end of the second slide bar is connected with a shoe sole placing mechanism, the shoe sole placing mechanism slides at the bottom of the frame body, the shoe sole placing mechanism is positioned below the left-right moving mechanism, a guide mechanism is arranged between the shoe sole placing mechanism and the left-right moving mechanism, the guide mechanism is connected to a guide plate arranged on one side in the side frame in a sliding manner, the top of the guide mechanism, the utility model discloses a frame, including placing the case, place the case and be in the bottom of support body slides, the second slide bar is connected place the left end of case, the right-hand member of placing the case is connected with first compression spring, first compression spring's right-hand member is connected the right-hand member of side bearer is inboard, the bottom of placing the case has seted up the sweeps collecting vat, install a plurality of fastening components on placing the lateral wall of case, it can drive to remove the right-hand member the guiding mechanism reciprocates, the bottom of guiding mechanism is equipped with the fluting subassembly.

Furthermore, the left-right moving mechanism comprises a first gear and a second gear which are installed on the inner side of the side frame and can rotate, the first gear and the second gear are meshed up and down, the left ends of the first gear and the second gear are connected with a push block, the left end of the push block is connected with a rectangular block, a pair of wedge blocks is connected to the lower surface of the rectangular block, the pair of wedge blocks are symmetrically arranged, a roller of the guide mechanism abuts against the bottom of one wedge block, and the right end of the first sliding rod is connected to the left side of the rectangular block.

Furthermore, the guide mechanism further comprises a guide post, the guide post is connected to the lower surface of the roller, the lower end of the guide post penetrates through a guide hole of the guide plate and is connected with the slotting component, the guide post is in sliding fit with the guide hole, a stop block and a second compression spring are arranged on the guide post, the stop block and the second compression spring are both positioned on the guide plate, and the second compression spring is abutted between the stop block and the guide plate.

Furthermore, the slotting component comprises a heating plate, a heat conducting mounting plate and a plurality of slotting dies, the heating plate is mounted at the lower end of the guide pillar, the heat conducting mounting plate is connected at the lower end of the heating plate, and the plurality of slotting dies are connected at the lower end of the heat conducting mounting plate.

Furthermore, the fastening assembly comprises a plurality of telescopic cylinders, the plurality of telescopic cylinders are arranged in a plurality of mounting grooves formed in the side wall of the storage box in a one-to-one correspondence mode, a third compression spring is sleeved on each telescopic cylinder, the inner ends of the plurality of third compression springs located on the same side are connected with a positioning plate together, and a plurality of anti-collision blocks are arranged on the inner side of the positioning plate.

Further, the left and right moving mechanism further comprises a motor, a limiting rod and a slide, the motor and the limiting rod are installed inside one side of the side frame, the motor and the second gear are connected through a belt, the push block slides on the limiting rod, the push block slides in the slide, the left end of the push block is connected with an L-shaped push rod, and the L-shaped push rod is connected to the upper end of the rectangular block.

Furthermore, the left and right moving mechanism further comprises a first fixing plate and a second fixing plate, the first fixing plate and the second fixing plate are fixed inside one side of the side frame, the first gear is installed on the first fixing plate, the second gear is installed on the second fixing plate, a first connecting rod is connected to the first gear, a second connecting rod is connected to the second gear, and the left end of the first connecting rod and the left end of the second connecting rod are hinged to the right end of the push block.

Furthermore, the locating plate is of an L-shaped structure, a pair of supporting seats are arranged at the bottom of the placing box, sliding blocks are arranged at the bottoms of the supporting seats, and the sliding blocks slide on the sliding rails at the bottom of the rack body.

Furthermore, the bottom of the rectangular block is also provided with a concave plate, and the concave plate is positioned between the pair of wedges.

Furthermore, a vertical plate is arranged between the top plate and the frame body, a first limiting hole and a second limiting hole are formed in the vertical plate, the left end of the first sliding rod penetrates through the first limiting hole and abuts against the upper end of the oscillating rod, the left end of the second sliding rod penetrates through the second limiting hole and abuts against the lower end of the oscillating rod, the first sliding rod is connected with the first limiting hole in a sliding mode, and the second sliding rod is connected with the second limiting hole in a sliding mode.

The technical scheme can show that the invention has the advantages that:

1. the left-right moving mechanism is arranged in the shoe sole machining device and can drive the guide mechanism and the shoe sole placing mechanism to move left and right, so that the grooves can be continuously machined on the shoe soles, and machining efficiency is higher.

2. The automatic processing machine carries out processing through the automatic mechanism, and can effectively improve the processing accuracy, so that the processing quality is better.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention.

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of another embodiment of the present invention.

Fig. 3 is a schematic structural view of the left-right moving mechanism of the present invention.

Fig. 4 is a partially enlarged view of a portion a of fig. 1.

Figure 5 is a side view of the slotted assembly of the present invention.

Fig. 6 is a cross-sectional view of the holding box of the present invention.

List of reference numerals: the frame body 1, the side frame 11, the top plate 12, the vertical plate 13, the first limit hole 131, the second limit hole 132, the guide plate 14, the guide hole 141, the slide rail 15, the left-right moving mechanism 2, the motor 21, the first gear 22, the first connecting rod 221, the first fixing plate 222, the second gear 23, the second connecting rod 231, the second fixing plate 232, the push block 24, the L-shaped push rod 242, the limit rod 25, the slide way 26, the rectangular block 27, the concave plate 271 and the wedge 272, the shoe sole placing device comprises a first sliding rod 3, a swinging rod 4, a second sliding rod 5, a first compression spring 51, a guide mechanism 6, a roller 61, a guide post 62, a stop 621, a second compression spring 63, a slotted component 64, a heating plate 641, a heat conduction mounting plate 642, a slotted mold 643, a shoe sole placing mechanism 7, a placing box 71, a mounting groove 711, a waste scrap collecting groove 712, a supporting seat 72, a sliding block 721, a third compression spring 73, a telescopic cylinder 731, a positioning plate 74 and an anti-collision block 741.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

Referring to fig. 1 to 6, the sole groove processing device for shoemaking shown in fig. 1 and 2 includes a frame body 1, a left-right moving mechanism 2 is arranged on a top plate 12 at the top of the frame body 1, a first slide bar 3 is connected to the left side of the left-right moving mechanism 2, a swing bar 4 is connected to the left end of the first slide bar 3 in a supporting manner, the swing bar 4 is hinged to a side frame 11 of the frame body 1, a second slide bar 5 is connected to the lower end of the swing bar 4 in a supporting manner, a sole placing mechanism 7 is connected to the right end of the second slide bar 5 in a sliding manner, the sole placing mechanism 7 slides at the bottom of the frame body 1, the sole placing mechanism 7 is located below the left-right moving mechanism 2, a guide mechanism 6 is arranged between the sole placing mechanism 7 and the left-right moving mechanism 2, the guide mechanism 6 is slidably connected to a guide, the top of guide mechanism 6 supports and holds the bottom of moving mechanism 2 about, sole placement mechanism 7 is including placing case 71, it is in to place case 71 the bottom of support body 1 slides, second slide bar 5 is connected place the left end of case 71, the right-hand member of placing case 71 is connected with first compression spring 51, first compression spring 51 can provide place the return stroke effort of case 71, thereby makes place case 71 and move about, the right-hand member of first compression spring 51 is connected the right-hand member inboard of side bearer 11, place the bottom of case 71 and seted up sweeps collecting vat 712, install a plurality of fastening component on the lateral wall of placing case 71, move about mechanism 2 and can drive guide mechanism 6 reciprocates, the bottom of guide mechanism 6 is equipped with fluting subassembly 64.

As shown in fig. 3, the left-right moving mechanism 2 includes a first gear 22 and a second gear 23 which are rotatably mounted inside the side frame 11, the first gear 22 and the second gear 23 are vertically engaged, the left ends of the first gear 22 and the second gear 23 are connected with a push block 24, the left end of the push block 24 is connected with a rectangular block 27, the lower surface of the rectangular block 27 is connected with a pair of wedges 272, the pair of wedges 272 are symmetrically arranged, the roller 61 of the guide mechanism 6 abuts against the bottom of one of the wedges 272, and the right end of the first slide bar 3 is connected to the left side of the rectangular block 27.

As shown in fig. 4, the guiding mechanism 6 further includes a guide post 62, the guide post 62 is connected to the lower surface of the roller 61, the lower end of the guide post 62 passes through the guiding hole 141 of the guiding plate 14 and is connected to the slotted component 64, the guiding hole 141 enables the guide post 62 to move up and down only in the vertical direction, so as to improve the guiding performance of the guide post 62, the guide post 62 is slidably engaged with the guiding hole 141, a stopper 621 and a second compression spring 63 are provided on the guide post 62, the stopper 621 and the second compression spring 63 are both located on the guiding plate 14, and the second compression spring 63 is abutted between the stopper 621 and the guiding plate 14.

As shown in fig. 5, the slotting assembly 64 includes a heating plate 641, a heat conducting mounting plate 642 and a plurality of slotting dies 643, the heating plate 641 is installed at the lower end of the guide post 62, the heat conducting mounting plate 642 is connected to the lower end of the heating plate 641, the plurality of slotting dies 643 are connected to the lower end of the heat conducting mounting plate 642, and the heating plate 641 can transfer heat to the plurality of slotting dies 643 through the heat conducting mounting plate 642, thereby increasing slotting speed.

As shown in fig. 6, the fastening assembly includes a plurality of telescopic cylinders 731, the plurality of telescopic cylinders 731 are disposed in a plurality of mounting grooves 711 formed in the side wall of the placing box 71 in a one-to-one correspondence manner, a third compression spring 73 is sleeved on the telescopic cylinders 731, positioning plates 74 are commonly connected to the inner ends of the plurality of third compression springs 73 located on the same side, a plurality of anti-collision blocks 741 are disposed on the inner sides of the positioning plates 74, the anti-collision blocks 741 can improve the protection effect on the sole, the fastening assembly is used for fixing the sole, that is, before the groove is machined, the positioning plates 74 on one side are pressed to press the third compression springs 73, so that the sole is obliquely placed in the placing box 71, the two ends of the sole tightly abut between the pair of positioning plates 74, and the pair of positioning plates 74 can clamp the sole by the reaction force of the third compression springs 73.

Preferably, the left-right moving mechanism 2 further includes a motor 21, a limiting rod 25 and a slide rail 26, the motor 21 and the limiting rod 25 are both installed inside one side of the side frame 11, the motor 21 and the second gear 23 are connected through a belt, the push block 24 slides on the limiting rod 25, the push block 24 slides in the slide rail 26, the left end of the push block 24 is connected with an L-shaped push rod 242, the L-shaped push rod 242 is connected to the upper end of the rectangular block 27, the motor 21 drives the second gear 23 to rotate, so that the second gear 23 can drive the first gear 22 to rotate, the first connecting rod 221 and the second connecting rod 231 drive the push block 24 to slide between the slide rail 26 and the limiting rod 25, and the push block 24 moves, and can enable the rectangular block 27 to slide left and right through the L-shaped push rod 242, so that the guide post 62 moves up and down.

Preferably, the left-right moving mechanism 2 further includes a first fixing plate 222 and a second fixing plate 232, the first fixing plate 222 and the second fixing plate 232 are both fixed inside one side of the side frame 11, the first gear 22 is mounted on the first fixing plate 222, the second gear 23 is mounted on the second fixing plate 232, the first gear 22 is connected with a first connecting rod 221, the second gear 23 is connected with a second connecting rod 231, and left ends of the first connecting rod 221 and the second connecting rod 231 are both hinged to a right end of the push block 24.

Preferably, the positioning plate 74 is an L-shaped structure, the bottom of the placing box 71 is provided with a pair of supporting seats 72, the bottoms of the pair of supporting seats 72 are both provided with sliding blocks 721, and the sliding blocks 721 slide on the sliding rails 15 at the bottom of the frame body 1.

Preferably, the bottom of the rectangular block 27 is further provided with a concave plate 271, and the concave plate 271 is located between a pair of wedges 272.

Preferably, a vertical plate 13 is arranged between the top plate 12 and the frame body 1, a first limiting hole 131 and a second limiting hole 132 are formed in the vertical plate 13, the left end of the first slide bar 3 passes through the first limiting hole 131 and abuts against the upper end of the swing rod 4, the left end of the second slide bar 5 passes through the second limiting hole 132 and abuts against the lower end of the swing rod 4, the first slide bar 3 is slidably connected with the first limiting hole 131, and the second slide bar 5 is slidably connected with the second limiting hole 132.

The working principle is as follows: the motor 21 drives the first gear 22 and the second gear 23 to rotate, so that the rectangular block 27 moves left and right, under the action of the second compression spring 63, the roller 61 tightly abuts against the bottoms of the pair of wedge blocks 272, the wedge blocks 272 extrude the guide pillars 62 through the movement of the rectangular block 27, so that the guide pillars 62 move up and down, the guide pillars 62 move up and down to drive the slotting component 64 to move up and down, so that the shoe sole is slotted, the first slide bar 3 can move left and right by the left and right movement of the rectangular block 27, the swing bar 4 can swing left and right by the left and right movement of the first slide bar 3, so that the second slide bar 5 moves left and right to drive the placing box 71 to move left and right, and the shoe sole in the placing box 71 can be slotted continuously.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made to the embodiment of the present invention by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The sole groove processing device for shoemaking is characterized by comprising a frame body (1), a left-right moving mechanism (2) is arranged on a top plate (12) at the top of the frame body (1), the left side of the left-right moving mechanism (2) is connected with a first slide bar (3), the left end of the first slide bar (3) is connected with a swing bar (4) in a supporting manner, the swing bar (4) is hinged to a side frame (11) of the frame body (1), the lower end of the swing bar (4) is connected with a second slide bar (5) in a supporting manner, the right end of the second slide bar (5) is connected with a sole placing mechanism (7), the sole placing mechanism (7) slides at the bottom of the frame body (1), the sole placing mechanism (7) is located below the left-right moving mechanism (2), and a guide mechanism (6) is arranged between the sole placing mechanism (7) and the left-right moving mechanism, the shoe sole placing mechanism is characterized in that the guide mechanism (6) is connected to a guide plate (14) installed on one side in the side frame (11) in a sliding manner, the top of the guide mechanism (6) is abutted against the bottom of the left-right moving mechanism (2), the shoe sole placing mechanism (7) comprises a placing box (71), the placing box (71) slides at the bottom of the frame body (1), the second sliding rod (5) is connected to the left end of the placing box (71), the right end of the placing box (71) is connected with a first compression spring (51), the right end of the first compression spring (51) is connected to the inner side of the right end of the side frame (11), a waste scrap collecting groove (712) is formed in the bottom of the placing box (71), a plurality of fastening components are installed on the side wall of the placing box (71), and the left-right moving mechanism (2) can drive the guide mechanism (6) to move up, and a slotting component (64) is arranged at the bottom of the guide mechanism (6).

2. The shoemaking sole groove processing device according to claim 1, wherein said left-right moving mechanism (2) comprises a first gear (22) and a second gear (23) which are rotatably mounted inside said side frame (11), said first gear (22) and said second gear (23) are vertically engaged, a push block (24) is connected to the left ends of said first gear (22) and said second gear (23), a rectangular block (27) is connected to the left end of said push block (24), a pair of wedges (272) are connected to the lower surface of said rectangular block (27), said pair of wedges (272) are symmetrically arranged, said roller (61) of said guide mechanism (6) abuts against the bottom of one of said wedges (272), and the right end of said first slide bar (3) is connected to the left side of said rectangular block (27).

3. The shoemaking sole groove processing device according to claim 2, wherein said guiding mechanism (6) further comprises a guide post (62), said guide post (62) is connected to the lower side of said roller (61), the lower end of said guide post (62) passes through the guiding hole (141) of said guiding plate (14) and is connected to said slotted component (64), said guide post (62) and said guiding hole (141) are slidably engaged, a stopper (621) and a second compression spring (63) are provided on said guide post (62), said stopper (621) and said second compression spring (63) are both located on the upper side of said guiding plate (14), and said second compression spring (63) is abutted between said stopper (621) and said guiding plate (14).

4. The sole groove processing device for shoemaking according to claim 3, wherein said slotted assembly (64) comprises a heating plate (641), a heat conducting mounting plate (642) and a plurality of slotted molds (643), said heating plate (641) is installed at the lower end of said guide pillar (62), said heat conducting mounting plate (642) is connected to the lower end of said heating plate (641), and a plurality of slotted molds (643) are connected to the lower end of said heat conducting mounting plate (642).

5. The shoemaking sole groove processing device according to claim 1, wherein said fastening assembly includes a plurality of telescopic cylinders (731), the plurality of telescopic cylinders (731) are disposed in a plurality of mounting grooves (711) formed in the side wall of said placing box (71) in a one-to-one correspondence manner, said telescopic cylinders (731) are sleeved with third compression springs (73), the inner ends of the plurality of third compression springs (73) located on the same side are connected to a positioning plate (74), and the inner side of said positioning plate (74) is provided with a plurality of crash-proof blocks (741).

6. The sole groove processingequipment for shoemaking according to claim 1, characterized in that, the mechanism (2) is removed still includes motor (21), gag lever post (25) and slide (26) about, motor (21) with gag lever post (25) are all installed inside one side of side bearer (11), motor (21) with connect through the belt between second gear (23), ejector pad (24) are in slide on gag lever post (25), just ejector pad (24) are in slide (26) slide, the left end of ejector pad (24) is connected with L type push rod (242), L type push rod (242) are connected the upper end of rectangle piece (27).

7. The shoemaking sole groove processing device according to claim 6, wherein said left-right moving mechanism (2) further comprises a first fixing plate (222) and a second fixing plate (232), said first fixing plate (222) and said second fixing plate (232) are fixed inside one side of said side frame (11), said first gear (22) is mounted on said first fixing plate (222), said second gear (23) is mounted on said second fixing plate (232), said first gear (22) is connected with a first connecting rod (221), said second gear (23) is connected with a second connecting rod (231), and left ends of said first connecting rod (221) and said second connecting rod (231) are hinged to a right end of said push block (24).

8. The shoemaking sole groove processing device according to claim 5, wherein said positioning plate (74) is of L-shaped structure, a pair of supporting seats (72) is provided at the bottom of said placing box (71), a sliding block (721) is provided at the bottom of each supporting seat (72), and said sliding block (721) slides on a sliding rail (15) at the bottom of said frame body (1).

9. The sole groove processing device for shoemaking according to claim 8, wherein said rectangular block (27) is further provided with a recessed plate (271) at the bottom, said recessed plate (271) being located between a pair of wedges (272).

10. The sole groove processing device for shoemaking according to claim 1, wherein a vertical plate (13) is disposed between the top plate (12) and the frame body (1), the vertical plate (13) is provided with a first limiting hole (131) and a second limiting hole (132), the left end of the first slide bar (3) passes through the first limiting hole (131) and abuts against the upper end of the swing rod (4), the left end of the second slide bar (5) passes through the second limiting hole (132) and abuts against the lower end of the swing rod (4), the first slide bar (3) is slidably connected with the first limiting hole (131), and the second slide bar (5) is slidably connected with the second limiting hole (132).

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