CN113832697B

CN113832697B - Insole processing and forming equipment

Info

Publication number: CN113832697B
Application number: CN202111138124.2A
Authority: CN
Inventors: 高作选
Original assignee: Huizhou Jiasheng Shoes Co ltd
Current assignee: Huizhou Jiasheng Shoes Co ltd
Priority date: 2021-09-27
Filing date: 2021-09-27
Publication date: 2023-01-13
Anticipated expiration: 2041-09-27
Also published as: CN113832697A

Abstract

The invention relates to insole processing and forming equipment, which comprises a bottom plate, wherein one side in the bottom plate is connected with a first fixing plate; one side of the top of the bottom plate is connected with a second fixing plate, the upper part of the second fixing plate is provided with a cylinder, and the bottom end of a telescopic rod of the cylinder is connected with a cutting die; the other side of the top of the bottom plate is provided with a discharging mechanism; and the other side of the top of the bottom plate is provided with a conveying mechanism. According to the cotton cloth cutting device, cotton cloth can be conveniently and quickly discharged through the discharging mechanism, the discharged cotton cloth can be conveyed through the conveying mechanism, the cutting die can be driven to move downwards through the air cylinder, the cutting die moves downwards to be matched with the first fixing plate, the cotton cloth can be cut into insoles, and therefore the effects that the cotton cloth can be automatically cut into the insoles, the processing efficiency can be improved, and the labor intensity can be reduced are achieved.

Description

Insole processing and forming equipment

Technical Field

The invention relates to a forming device, in particular to a shoe pad processing and forming device.

Background

At present, the cotton cloth is processed into the shoe pad generally by manual operation, the template of the shoe pad is firstly placed on the cotton cloth, then the cotton cloth is marked by a painting brush along the template of the shoe pad, then the hand-held scissors are cut along the drawn edge, the shoe pad processing mode is complex in operation and low in efficiency, the long-time hand-held scissors are used for cutting, the labor intensity is high, and the arm is easy to ache.

Therefore, an insole processing and forming device capable of automatically cutting cotton cloth into insoles, improving processing efficiency and reducing labor intensity is needed to be designed.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide the insole processing and forming equipment which can automatically cut cotton cloth into insoles, improve the processing efficiency and reduce the labor intensity.

The invention is realized by the following steps: an insole processing and forming device comprises a bottom plate, wherein a first fixing plate is connected to one side in the bottom plate; one side of the top of the bottom plate is connected with a second fixing plate, the upper part of the second fixing plate is provided with a cylinder, and the bottom end of a telescopic rod of the cylinder is connected with a cutting die; the other side of the top of the bottom plate is provided with a discharging mechanism; and the other side of the top of the bottom plate is provided with a conveying mechanism.

In a preferred embodiment of the invention, the blanking mechanism comprises a support frame, one side of the top of the bottom plate is connected with the support frame, the upper part of one side of the support frame is connected with a first fixed rod, and the first fixed rod is connected with a third fixed plate; the lower part of the other side of the supporting frame is connected with a first movable plate in a sliding way, and the first movable plate is connected with a handle; the upper part of the other side of the support frame is connected with a movable rod in a sliding way, and the movable rod is matched with the first movable plate; the movable rod is connected with a second movable plate, and a first spring is connected between the second movable plate and the support frame.

In a preferred embodiment of the present invention, the conveying mechanism includes second fixing rods, two second fixing rods are connected to the other side of the top of the bottom plate, two first rotating shafts are rotatably connected to the upper portions of the second fixing rods, first belt pulleys are connected to the first rotating shafts, and first flat belts are respectively sleeved between the two corresponding first belt pulleys; two third fixing rods are connected to the outer side face of one first flat belt; first gears are connected to two of the first rotating shafts, and the two first gears are meshed.

In a preferred embodiment of the invention, the device further comprises a swinging mechanism, the swinging mechanism comprises a movable block, and a telescopic rod of the air cylinder is connected with the movable block; one side, close to the second fixed plate, of the top of the bottom plate is connected with a sliding rail, the sliding rail is connected with a rack in a sliding mode, and the rack is in contact fit with the movable block; the second spring is connected between the rack and the sliding rail; one side of the bottom plate is rotatably connected with a second rotating shaft, and a first torsion spring is connected between the second rotating shaft and the bottom plate; the upper part of the second rotating shaft is connected with a one-way gear which is meshed with the rack; the middle part of the second rotating shaft is connected with a third movable plate, the third movable plate is connected with a fourth fixed rod, the fourth fixed rod is rotatably connected with a fourth movable plate, the fourth movable plate is matched with the third fixed rod, and the fourth movable plate is in contact fit with the third movable plate; and a second torsion spring is connected between the fourth movable plate and the fourth fixed rod.

In a preferred embodiment of the invention, the rotary mechanism further comprises a fifth fixing rod, one side of the top of the bottom plate, which is far away from the second fixing rod, is connected with the fifth fixing rod, two rollers are rotatably connected between the fifth fixing rod and the bottom plate, one side of each roller is connected with a second gear, and the two second gears are meshed; and one of the idler wheels and one of the first rotating shafts are connected with a second belt wheel, and a second flat belt is sleeved between the two second belt wheels.

In a preferred embodiment of the present invention, the pressing mechanism further comprises a sixth fixing rod, the movable block is connected to the sixth fixing rod, the sixth fixing rod is connected to a connecting rod, and the connecting rod is connected to a pressing block.

In a preferred embodiment of the invention, the first fixing plate is provided with a through hole matched with the pressing block.

In a preferred embodiment of the invention, the crushing device further comprises a crushing mechanism, the crushing mechanism comprises a fourth fixed plate, the other side of the bottom plate is connected with the fourth fixed plate, the fourth fixed plate is connected with a loading frame, and a fifth movable plate is clamped at the bottom of the loading frame; the motor is installed on the upper portion in the loading frame, and a rotary cutter is connected to the motor.

The invention has the beneficial effects that:

1. the cotton cloth can be conveniently and quickly discharged through the discharging mechanism, the discharged cotton cloth can be conveyed through the conveying mechanism, the cutting die can be driven to move downwards through the air cylinder, the cutting die moves downwards to be matched with the first fixing plate, the cotton cloth can be cut into insoles, and therefore the effects that the cotton cloth can be automatically cut into the insoles, the processing efficiency can be improved, and the labor intensity can be reduced are achieved;

2. the conveying mechanism can be driven to work through the swinging mechanism, so that the conveying mechanism does not need to be manually driven to work, and the labor intensity can be further reduced;

3. the cut cotton cloth can be conveyed through the rotating mechanism, so that the cutting work can be facilitated;

4. can push down the shoe-pad that stops on the cotton through pushing down the mechanism, can smash the abandonment cotton after tailorring through rubbing crusher.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 3 is a schematic perspective view of the transfer mechanism of the present invention.

Fig. 4 is a perspective view of a part of the conveying mechanism of the present invention.

Fig. 5 is a schematic perspective view of the swing mechanism of the present invention.

Fig. 6 is a partial perspective view of the swing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 8 is a schematic perspective view of a part of the rotating mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first pressing mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second pressing mechanism according to the present invention.

Fig. 11 is a schematic perspective view of the crushing mechanism of the present invention.

Wherein: 1-base plate, 2-first fixed plate, 3-second fixed plate, 4-cylinder, 5-cutting die, 6-blanking mechanism, 61-support frame, 62-first fixed bar, 63-third fixed plate, 64-handle, 65-first movable plate, 66-movable bar, 67-second movable plate, 68-first spring, 7-transmission mechanism, 71-second fixed bar, 72-first rotating shaft, 73-first belt pulley, 74-first flat belt, 75-third fixed bar, 76-first gear, 8-swinging mechanism, 81-movable block, 82-slide rail, 83-rack, 84-one-way gear, 85-second rotating shaft, 86-first torsion spring, 87-third movable plate, 88-fourth fixed bar, 89-fourth movable plate, 810-second torsion spring, 811-second spring, 9-fourth fixed bar, 91-fifth fixed bar, 92-roller, 93-second belt, 94-second flat belt, 95-second gear, 10-pressing mechanism, 101-sixth fixed bar, 101-pressing block, 102-fourth movable plate, 111-rotating mechanism, 103-fourth movable plate, 103-rotating mechanism, 103-fourth belt pulley, 11-fourth movable plate, and 11-fourth movable plate.

Detailed Description

According to the figures 1-4, the cutting device comprises a bottom plate 1, a first fixing plate 2, a second fixing plate 3, a cylinder 4, a cutting die 5, a blanking mechanism 6 and a conveying mechanism 7, wherein the first fixing plate 2 is connected to the right side in the bottom plate 1, the second fixing plate 3 is connected to the front side of the top of the bottom plate 1, the cylinder 4 is installed on the upper portion of the second fixing plate 3, the cutting die 5 is connected to the bottom end of a telescopic rod of the cylinder 4, the blanking mechanism 6 is arranged on the left side of the top of the bottom plate 1, and the conveying mechanism 7 is arranged on the rear side of the top of the bottom plate 1.

The blanking mechanism 6 comprises a support frame 61, a first fixed rod 62, a third fixed plate 63, a handle 64, a first movable plate 65, a movable rod 66, a second movable plate 67 and a first spring 68, wherein the support frame 61 is connected to the left side of the top of the bottom plate 1, the first fixed rod 62 is connected to the upper portion of the front side of the support frame 61, the third fixed plate 63 is connected to the rear end of the first fixed rod 62, the first movable plate 65 is connected to the lower portion of the rear side of the support frame 61 in a sliding manner, the handle 64 is connected to the bottom of the first movable plate 65, the movable rod 66 is connected to the upper portion of the rear side of the support frame 61 in a sliding manner, the movable rod 66 is matched with the first movable plate 65, the second movable plate 67 is connected to the front end of the movable rod 66, and the first spring 68 is connected between the second movable plate 67 and the support frame 61.

The transmission mechanism 7 comprises a second fixing rod 71, first rotating shafts 72, first belt pulleys 73, first flat belts 74, third fixing rods 75 and first gears 76, wherein the left rear side of the top of the bottom plate 1 is connected with the two second fixing rods 71, the two second fixing rods 71 are bilaterally symmetrical, the upper parts of the second fixing rods 71 are rotatably connected with the two first rotating shafts 72, the two first rotating shafts 72 are symmetrical up and down, the first belt pulleys 73 are connected onto the first rotating shafts 72, the first flat belts 74 are sleeved between the two first belt pulleys 73 corresponding to the left and right, the two third fixing rods 75 are connected onto the outer side surfaces of the upper first flat belts 74, the two first rotating shafts 72 corresponding to the right up and down are connected with the first gears 76, the two first gears 76 are meshed, and the first gears 76 are positioned at the rear sides of the first belt pulleys 73.

When cotton cloth needs to be cut into insoles, the equipment can be used, initially, the first movable plate 65 clamps the movable rod 66, the first spring 68 is in a compressed state, the wound cotton cloth is firstly sleeved on the third fixed plate 63, then the handle 64 is pulled downwards to enable the first movable plate 65 to move downwards, the movable rod 66 is loosened after the first movable plate 65 moves downwards, the second movable plate 67 can move forwards and reset under the action of the first spring 68, and the cotton cloth can be limited to prevent the cotton cloth from moving under the matching of the second movable plate 67 and the third fixed plate 63; then can pull out the tip of cotton to make the tip of cotton pass two first flat belts 74, and make the cotton be located first fixed plate 2, start cylinder 4's telescopic link extension afterwards, cutting die 5 moves down along with it, cutting die 5 moves down and cooperates with first fixed plate 2, can tailor the cotton, thereby can tailor into the shoe-pad with the cotton. After finishing one-time cutting work, the telescopic rod of the control cylinder 4 is shortened, the cutting die 5 moves upwards along with the telescopic rod to reset, at the moment, the insole can be taken down, then the cotton cloth is pulled rightwards, the operation is repeated, the insole cutting work can be repeated, and when the cutting work is not needed, the cylinder 4 is closed; so this equipment can make the cotton convenient, swift emits through unloading mechanism 6, can convey the cotton of emitting through transport mechanism 7, can drive cutting die 5 downstream through cylinder 4, cutting die 5 downstream and the cooperation of first fixed plate 2 can be tailor to the cotton to can tailor into the shoe-pad with the cotton, and then reached and to tailor into the shoe-pad with the cotton automatically, can improve machining efficiency, can reduce intensity of labour's effect.

As shown in fig. 1, 5 and 6, the present invention further includes a swing mechanism 8, the swing mechanism 8 includes a movable block 81, a sliding rail 82, a rack 83, a one-way gear 84, a second rotating shaft 85, a first torsion spring 86, a third movable plate 87, a fourth fixed rod 88, a fourth movable plate 89, a second torsion spring 810 and a second spring 811, the movable block 81 is connected to a telescopic rod of the cylinder 4, the sliding rail 82 is connected to the front side of the top of the bottom plate 1, the sliding rail 82 is located on the left side of the second fixed plate 3, the rack 83 is slidably connected to the sliding rail 82, the rack 83 is in contact with the movable block 81, the second spring 811 is connected between the rack 83 and the sliding rail 82, the second rotating shaft 85 is rotatably connected to the front side of the bottom plate 1, the first torsion spring 86 is connected between the second rotating shaft 85 and the bottom plate 1, the one-way gear 84 is connected to the upper portion of the second rotating shaft 85, the one-way gear 84 is engaged with the rack 83, the middle portion of the second rotating shaft 85 is connected to the third movable plate 87, the top of the third movable plate 87 is connected to the fourth fixed rod 88, the fourth movable plate 89 is connected to the fourth movable plate 75.

When the telescopic rod of the air cylinder 4 extends, the movable block 81 can move downwards, the movable block 81 moves downwards to push the rack 83 to move forwards, the second spring 811 is compressed, the rack 83 rotates idly through the one-way gear 84 when moving forwards, the second rotating shaft 85 cannot rotate, when the telescopic rod of the air cylinder 4 shortens to drive the movable block 81 to move upwards and reset, the rack 83 can move backwards and reset under the action of the second spring 811, the rack 83 moves backwards and can rotate through the one-way gear 84 and the second rotating shaft 85, the first torsion spring 86 compresses therewith, the second rotating shaft 85 rotates to drive the third movable plate 87 to rotate, the third movable plate 87 rotates and can push the third fixed rod 75 to rotate through the fourth movable plate 89, the third fixed rod 75 rotates to drive the upper first flat belt 74 to rotate, the upper first belt pulley 73 rotates along with the rotation, the upper first belt pulley 73 rotates to drive the upper first rotating shaft 72 to rotate, the first rotating shafts 72 on the upper side and the lower side can rotate oppositely, and the first flat belts 74 on the upper side and the lower side can rotate and can convey the cotton cloth rightwards without manual pulling out of the cotton cloth rightwards. When the rack 83 moves backward and is disengaged from the one-way gear 84, the second rotating shaft 85 can be reversely rotated and reset under the action of the first torsion spring 86, the second rotating shaft 85 reversely rotates to drive the third movable plate 87 to reversely rotate, the fourth movable plate 89 reversely rotates and resets along with the third movable plate, when the fourth movable plate 89 reversely rotates to be in contact with the third fixed rod 75, the fourth movable plate 89 can be overturned leftward under the action of the third fixed rod 75, the second torsion spring 810 is compressed along with the fourth movable plate 89, and when the fourth movable plate 89 is disengaged from the third fixed rod 75, the fourth movable plate 89 can be rotated and reset rightward under the action of the second torsion spring 810. The transmission mechanism 7 can be driven to work through the swing mechanism 8, so that the transmission mechanism 7 does not need to be manually driven to work, and the labor intensity can be further reduced.

As shown in fig. 1, 7 and 8, the present invention further includes a rotating mechanism 9, the rotating mechanism 9 includes a fifth fixing rod 91, a roller 92, a second pulley 93, a second flat belt 94 and a second gear 95, the fifth fixing rod 91 is connected to the right rear side of the top of the bottom plate 1, two rollers 92 are rotatably connected between the fifth fixing rod 91 and the bottom plate 1, the two rollers 92 are vertically symmetrical, the second gear 95 is connected to the rear side of the roller 92, the two second gears 95 are engaged, the upper roller 92 and the first rotating shaft 72 on the upper right side are both connected to the second pulley 93, and the second flat belt 94 is sleeved between the two second pulleys 93.

The cut cotton cloth can pass through the two rollers 92, the first rotating shaft 72 at the upper right side rotates to pass through the second belt pulley 93 and the second flat belt 94, the roller 92 at the upper side can rotate, the two rollers 92 can oppositely rotate through the second gear 95, the two rollers 92 oppositely rotate to rightwards transmit the cut cotton cloth, and therefore the cutting work can be conveniently carried out; the cut cotton cloth can be conveyed by the rotating mechanism 9, so that the cutting work can be conveniently carried out.

As shown in fig. 1, 9 and 10, the present invention further includes a pressing mechanism 10, the pressing mechanism 10 includes a sixth fixing rod 101, a connecting rod 102 and a pressing block 103, the right side of the movable block 81 is connected with the sixth fixing rod 101, the right side of the sixth fixing rod 101 is connected with the connecting rod 102, the bottom end of the connecting rod 102 is connected with the pressing block 103, the pressing block 103 is located on the right side of the cutting die 5, and the first fixing plate 2 is provided with a through hole matched with the pressing block 103.

The movable block 81 moves downwards to drive the sixth fixing rod 101 to move downwards, the sixth fixing rod 101 moves downwards to drive the pressing block 103 to move downwards through the connecting rod 102, the pressing block 103 moves downwards to be matched with the through opening and can push down the insole staying on the cotton cloth, and when the movable block 81 moves upwards, the pressing block 103 moves upwards; the insole staying on the cotton cloth can be pushed down by the pressing mechanism 10.

As shown in fig. 1 and 11, the present invention further includes a crushing mechanism 11, the crushing mechanism 11 includes a fourth fixing plate 111, a loading frame 112, a fifth movable plate 113, a motor 114 and a rotary cutter 115, the fourth fixing plate 111 is connected to the right side of the bottom plate 1, the loading frame 112 is connected to the upper portion of the fourth fixing plate 111, the fifth movable plate 113 is connected to the bottom of the loading frame 112 in a clamping manner, the motor 114 is installed at the upper portion inside the loading frame 112, and an output shaft of the motor 114 is connected to the rotary cutter 115 through a coupling.

The cut waste cotton cloth can be cut off and placed into the material loading frame 112, then the motor 114 is started to enable the rotary cutter 115 to rotate, the rotary cutter 115 rotates to crush the waste cotton cloth, when the crushing work is not needed, the motor 114 is turned off, when the crushed cotton cloth in the material loading frame 112 is to be processed, the fifth movable plate 113 can be taken down from the material loading frame 112, and after the crushed cotton cloth is processed, the fifth movable plate 113 is placed back on the material loading frame 112; the waste cotton cloth after cutting can be crushed by the crushing mechanism 11 in this manner.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that various changes, modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, and all are intended to be included within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An insole processing and forming device is characterized by comprising:

a base plate (1) having a first fixing plate (2) connected to one side thereof;

one side of the top of the bottom plate (1) is connected with a second fixing plate (3), the upper part of the second fixing plate (3) is provided with a cylinder (4), and the bottom end of a telescopic rod of the cylinder (4) is connected with a cutting die (5);

the other side of the top of the bottom plate (1) is provided with a blanking mechanism (6);

the other side of the top of the bottom plate (1) is provided with a conveying mechanism (7);

the blanking mechanism (6) comprises:

the supporting frame (61) is connected to one side of the top of the bottom plate (1), a first fixing rod (62) is connected to the upper portion of one side of the supporting frame (61), and a third fixing plate (63) is connected to the first fixing rod (62);

the lower part of the other side of the supporting frame (61) is connected with a first movable plate (65) in a sliding way, and the first movable plate (65) is connected with a handle (64);

the upper part of the other side of the support frame (61) is connected with a movable rod (66) in a sliding way, and the movable rod (66) is matched with the first movable plate (65);

the second movable plate (67) is connected to the movable rod (66), and a first spring (68) is connected between the second movable plate (67) and the support frame (61);

the transfer mechanism (7) comprises:

two second fixing rods (71) are connected to the other side of the top of the bottom plate (1), two first rotating shafts (72) are rotatably connected to the upper portions of the second fixing rods (71), first belt pulleys (73) are connected to the first rotating shafts (72), and first flat belts (74) are sleeved between the corresponding two first belt pulleys (73);

the outer side surface of one first flat belt (74) is connected with two third fixing rods (75);

the first gears (76) are connected to two first rotating shafts (72), and the two first gears (76) are meshed;

still include swing mechanism (8), swing mechanism (8) include:

the telescopic rod of the cylinder (4) is connected with the movable block (81);

one side, close to the second fixing plate (3), of the top of the bottom plate (1) is connected with a sliding rail (82), the sliding rail (82) is connected with a rack (83) in a sliding mode, and the rack (83) is in contact fit with the movable block (81);

the second spring (811) is connected between the rack (83) and the sliding rail (82);

a second rotating shaft (85), wherein one side of the bottom plate (1) is rotatably connected with the second rotating shaft (85), and a first torsion spring (86) is connected between the second rotating shaft (85) and the bottom plate (1);

the upper part of the second rotating shaft (85) is connected with a one-way gear (84), and the one-way gear (84) is meshed with the rack (83);

a third movable plate (87), a third movable plate (87) is connected to the middle of the second rotating shaft (85), a fourth fixed rod (88) is connected to the third movable plate (87), a fourth movable plate (89) is rotatably connected to the fourth fixed rod (88), the fourth movable plate (89) is matched with the third fixed rod (75), and the fourth movable plate (89) is matched with the third movable plate (87) in a contact manner;

and a second torsion spring (810) is connected between the fourth movable plate (89) and the fourth fixed rod (88).

2. The insole processing and forming device according to claim 1, further comprising a rotating mechanism (9), wherein the rotating mechanism (9) comprises:

a fifth fixing rod (91) is connected to one side, away from the second fixing rod (71), of the top of the bottom plate (1), two idler wheels (92) are rotatably connected between the fifth fixing rod (91) and the bottom plate (1), a second gear (95) is connected to one side of each idler wheel (92), and the two second gears (95) are meshed;

and one of the rollers (92) and one of the first rotating shafts (72) are connected with a second belt pulley (93), and a second flat belt (94) is sleeved between the two second belt pulleys (93).

3. The insole processing and forming device according to claim 2, further comprising a pressing mechanism (10), wherein the pressing mechanism (10) comprises:

the movable block (81) is connected with a sixth fixing rod (101), the sixth fixing rod (101) is connected with a connecting rod (102), and the connecting rod (102) is connected with a pressing block (103).

4. The insole processing and forming device according to claim 3, wherein the first fixing plate (2) is provided with a through hole matched with the pressing block (103).

5. The insole processing and forming device according to claim 4, further comprising a pulverizing mechanism (11), wherein the pulverizing mechanism (11) comprises:

the other side of the bottom plate (1) is connected with a fourth fixed plate (111), the fourth fixed plate (111) is connected with a loading frame (112), and a fifth movable plate (113) is clamped at the bottom of the loading frame (112);

the motor (114) is installed on the upper portion in the loading frame (112), and the rotary cutter (115) is connected to the motor (114).