CN115071251B - EVA bubble cotton pad surface seal mark device - Google Patents

Abstract

The invention relates to a mark printing device, in particular to a mark printing device for the surface of an EVA foam pad. The invention provides an EVA foam pad surface mark printing device which can automatically print marks, is clear in mark printing and is not easy to fall off. The invention provides a surface marking device of an EVA foam pad, which comprises: the support mechanism is provided with six fixing frames in a sliding mode; the six fixing frames are respectively provided with a first rotating shaft in a rotating way; the six first rotating shafts are respectively provided with a roller wheel; icon blocks, six the roller is provided with the round all icon blocks on the roller. The mark printing pigment in the pigment box can flow into the foam-rubber cushion through the honeycomb duct, so that a certain amount of pigment is adsorbed in the foam-rubber cushion, the icon block is convenient to be dipped, the rolling wheel moves to drive the icon block to be contacted with the surface of the EVA foam-rubber cushion, and mark printing on the surface of the EVA foam-rubber cushion is realized.

Description

EVA bubble cotton pad surface seal mark device

Technical Field

The invention relates to a mark printing device, in particular to a mark printing device for the surface of an EVA foam pad.

Background

The EVA foam pad is a novel environment-friendly material, belongs to a product of foam, is degradable, is also called as EVA sponge, and in the production process of the EVA foam pad, some merchants can print marks or trademarks on the surface of the EVA foam pad for attractive appearance or propaganda brands, the traditional mark printing mode is to repeatedly pick up pigment to print on the surface of the EVA foam pad through manual hand-held silk screen printing, the mark printing mode is time-consuming and labor-consuming, marks are easy to be caused, marks are easy to fall off, and the product quality is affected.

Therefore, there is a need to design an EVA foam pad surface marking device for solving the above problems, which can automatically mark and clearly mark, and the mark is not easy to fall off.

Disclosure of Invention

In order to overcome the defects that manual hand-held silk screen printing repeatedly dips in a mode that pigment is printed on the surface of an EVA foam pad, time and labor are wasted, and printing marks are unclear easily, the technical problem to be solved is that: the EVA foam pad surface mark printing device is capable of automatically printing marks, enabling the marks to be clear and enabling the marks not to fall off easily.

The technical scheme of the invention is as follows: an EVA foam pad surface marking device comprising: the support mechanism is provided with six fixing frames in a sliding mode; the six fixing frames are respectively provided with a first rotating shaft in a rotating way; the six first rotating shafts are respectively provided with a roller wheel; icon blocks, wherein a circle of icon blocks are arranged on each of the six roller wheels; pigment supplementing mechanism, be provided with on supporting mechanism and the mount pigment supplementing mechanism.

Further, the support mechanism includes: the bottom plate is symmetrically provided with supporting seats on two sides of the top of the bottom plate; the support rings are symmetrically arranged between the two support seats at one side up and down; the fixing shells are arranged at the tops of the two supporting seats, the same fixing shell is arranged between the tops of the two supporting seats at the other side, and the three fixing shells are arranged in a stepped mode; the center positions of the two supporting rings are respectively provided with the second rotating shafts in a rotating way, and the center positions of the fixing shells at the lower parts are respectively provided with the same second rotating shafts in a rotating way; the belt pulley assembly consists of two belt pulleys and a flat belt, the belt pulleys are arranged at the upper end and the lower end of a second rotating shaft in the middle, the belt pulley is arranged at the top end of the second rotating shaft in the lower part, the belt pulley is arranged at the bottom end of the second rotating shaft in the upper part, and the flat belt is wound between the two adjacent belt pulleys; the motor base is arranged on one side of the top of the bottom plate; the servo motor is arranged at the top of the motor seat, and an output shaft of the servo motor is connected with the top end of the second rotating shaft at the lower part through a coupler; the fixing rings are arranged on the three second rotating shafts; the first connecting rods are symmetrically arranged on the three fixing rings; the six first connecting rods are respectively provided with the first guide rods, and the fixing frame is connected with the first guide rods in a sliding mode; the first elastic piece is symmetrically connected between the fixing frame and the first guide rod at the same side; and the limiting rings are symmetrically arranged on the inner walls of the three fixing shells from top to bottom, and the fixing frames are matched with the limiting rings.

Further, the pigment replenishing mechanism includes: the ends of the six first connecting rods are provided with the fixing boxes; the sponge pads are arranged in the six fixing boxes; the six first connecting rods are respectively provided with a pigment box; the honeycomb duct is connected between the pigment box and the fixing box at the same side; the top parts of the six pigment boxes are respectively provided with the box cover; the six first rotating shafts are provided with driving wheels in an up-down symmetrical mode, and the driving wheels are matched with the limiting rings.

Further, still include feeding mechanism, feeding mechanism includes: the slide ways are arranged between one sides of the three fixed shells; the support columns are arranged on one side of the bottom and one side of the top fixing shell; a placing tray is arranged between the tops of the two support columns; the blanking hopper is arranged on one side of the placing plate, and the bottom of the blanking hopper is communicated with the top of the slideway; the first limiting plate is arranged on one side of the slide way.

Further, still including seal and press stabilizing mean, seal and press stabilizing mean includes: the sliding rail is provided with three second limiting plates in a sliding mode, and the three second limiting plates are arranged in a stepped mode; the second elastic pieces are connected between the three second limiting plates and the first limiting plate; the three fixing rings are symmetrically provided with the second connecting rods; the six second connecting rods are provided with the second guide rods in a sliding mode; the triangular jacking blocks are arranged at the ends of the six second guide rods and are matched with the second limiting plates; the third elastic piece is connected between the triangular ejector block and the end part of the second connecting rod on the same side.

Further, still include and inject blanking mechanism, inject blanking mechanism and include: the limiting frame is arranged on one side of the upper part of the first limiting plate; the connecting plates are arranged in the limiting frames in a sliding mode, and are matched with the first limiting plates in a sliding mode; the top of the connecting plate is provided with the first baffle plates, and the first baffle plates are connected with the blanking hopper in a sliding manner; the transmission plate is arranged at the bottom of the connecting plate in a sliding manner; the four elastic pieces are uniformly connected between the top of the transmission plate and the connecting plate at intervals, and the initial state of the fourth elastic pieces is a compression state; the third connecting rod is symmetrically arranged on one side of the second limiting plate; the movable plate is arranged between the two third connecting rods, is connected with the first limiting plate in a sliding mode, and is matched with the transmission plate; the fifth elastic piece is connected between the connecting plate and the first limiting plate.

Further, still include stop gear, stop gear includes: the fixing frame is arranged on one side of the lower part of the first limiting plate; the clamping plate is arranged in the fixed frame in a sliding manner; the four elastic pieces are uniformly arranged between the top of the clamping plate and the fixed frame at intervals, and the initial state of the sixth elastic pieces is a compression state; the lower part of the first limiting plate is provided with the second striker plate in a sliding manner, and the clamping plate is matched with the second striker plate; and the seventh elastic piece is symmetrically connected between one side of the second striker plate and the lower part of the first limiting plate.

Further, the triangular top block is made of rubber.

Compared with the prior art, the invention has the following advantages: 1. the mark printing pigment in the pigment box can flow into the foam-rubber cushion through the honeycomb duct, so that a certain amount of pigment is adsorbed in the foam-rubber cushion, the icon block is convenient to be dipped, the rolling wheel moves to drive the icon block to be contacted with the surface of the EVA foam-rubber cushion, and mark printing on the surface of the EVA foam-rubber cushion is realized.

2. Placing the dish can place the cotton pad of EVA bubble, no longer needs the manual work to hold the cotton pad of EVA bubble constantly and carries out the seal mark, can make the cotton pad of EVA bubble drop to the slide in the effect of blanking hopper and carry out the seal mark.

3. Can prevent under the effect of second limiting plate that EVA bubble cotton pad from dropping through the slide at the in-process of seal mark, lead to seal mark unclear.

4. The connecting plate is driven to slide backwards under the action of the backward sliding of the second limiting plate, so that the blanking hopper is communicated with the slide way, automatic blanking of the EVA foam pad is realized for marking, and marking efficiency is improved.

Drawings

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

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

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

Fig. 4 is a partial cross-sectional view of the support mechanism of the present invention.

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

FIG. 6 is a partial cross-sectional view of the feed mechanism of the present invention.

FIG. 7 is a partial exploded view of the feed mechanism of the present invention.

Fig. 8 is a schematic perspective view of the press stabilizing mechanism of the present invention.

Fig. 9 is a partial cross-sectional view of the print stabilization mechanism of the present invention.

Fig. 10 is a schematic perspective view of a blanking mechanism defined by the present invention.

Fig. 11 is a first cross-sectional view of the defined blanking mechanism of the present invention.

Fig. 12 is a second cross-sectional view of the defined blanking mechanism of the present invention.

Fig. 13 is a schematic cross-sectional view of a spacing mechanism of the present invention.

In the figure: 1-fixing frame, 2-first rotating shaft, 3-roller wheel, 4-icon block, 5-supporting mechanism, 501-base plate, 502-supporting seat, 503-fixing shell, 504-supporting ring, 505-second rotating shaft, 506-belt pulley assembly, 507-motor seat, 508-servo motor, 509-fixing ring, 510-first connecting rod, 511-first guide rod, 512-first elastic piece, 513-limiting ring, 6-pigment supplementing mechanism, 601-fixing box, 602-sponge pad, 603-pigment box, 604-honeycomb duct, 605-box cover, 606-driving wheel, 7-feeding mechanism, 701-slideway, 702-supporting column, 703-blanking hopper, 704-placing plate, 705-first limiting plate, 8-stamping stabilizing mechanism, 801-second elastic piece, 802-second limiting plate, 803-second connecting rod, 804-second guide rod, 805-third elastic piece, 806-triangular top block, 9-limiting blanking mechanism, 901-limiting frame, 902-connecting plate, 903-first striker plate, 904-fourth elastic piece, 905-transmission plate, 906-third connecting rod, 907-moving plate, 908-fifth elastic piece, 10-limiting mechanism, 1001-fixed frame, 1002-sixth elastic piece, 1003-clamping plate, 1004-second striker plate, 1005-seventh elastic piece.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and 2, an EVA foam pad surface marking device comprises a fixing frame 1, a first rotating shaft 2, a rolling wheel 3, an icon block 4, a supporting mechanism 5 and a pigment supplementing mechanism 6, six fixing frames 1 are slidably arranged on the supporting mechanism 5, the six fixing frames 1 are respectively provided with the first rotating shaft 2 in a rotating manner, the rolling wheels 3 are respectively arranged on the six first rotating shafts 2, a circle of icon block 4 is respectively arranged on the six rolling wheels 3, and the pigment supplementing mechanism 6 is arranged on the supporting mechanism 5 and the fixing frames 1.

When needs carry out the seal mark to EVA bubble cotton pad surface, the staff adds the seal mark pigment with pigment in supplementary mechanism 6 for be stained with pigment on the icon piece 4, rethread supporting mechanism 5 rotates and drives mount 1 rotation and make roller wheel 3 remove, and the handheld EVA bubble cotton pad of this moment, roller wheel 3 remove and drive icon piece 4 and the cotton pad surface contact of EVA bubble have realized carrying out the seal mark to EVA bubble cotton pad surface. The device has simple structure and is convenient to operate.

Example 2

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, on the basis of embodiment 1, the supporting mechanism 5 comprises a bottom plate 501, a supporting seat 502, a fixing shell 503, a supporting ring 504, a second rotating shaft 505, a pulley assembly 506, a motor seat 507, a servo motor 508, a fixing ring 509, a first connecting rod 510, a first guide rod 511, a first elastic member 512 and a limiting ring 513, wherein the supporting seats 502 are symmetrically arranged on the left side and the right side of the top of the bottom plate 501, the supporting rings 504 are symmetrically arranged between the two supporting seats 502 on the right side, the fixing shells 503 are respectively arranged on the tops of the two supporting seats 502, the same fixing shell 503 is arranged between the tops of the two supporting seats 502 on the left side, the three fixing shells 503 are arranged in a step-like manner, the second rotating shafts 505 are respectively arranged at the central positions of the two supporting rings 504, the same second rotating shafts 505 are respectively arranged at the central positions of the fixing shells 503 on the lower part, the belt pulley assembly 506 consists of two belt pulleys and a flat belt, the upper end and the lower end of a second rotating shaft 505 in the middle are respectively provided with a belt pulley, the top end of the second rotating shaft 505 in the lower part is provided with a belt pulley, the bottom end of the second rotating shaft 505 in the upper part is provided with a belt pulley, the flat belt is wound between the two adjacent belt pulleys, the left side of the top of a bottom plate 501 is provided with a motor seat 507, the top of the motor seat 507 is provided with a servo motor 508, an output shaft of the servo motor 508 is connected with the top end of the second rotating shaft 505 in the lower part through a coupler, the three second rotating shafts 505 are respectively provided with a fixed ring 509, the three fixed rings 509 are respectively provided with a first connecting rod 510 in a front-back symmetrical way, the six first connecting rods 510 are respectively provided with a first guide rod 511, the fixed frame 1 is connected with the first guide rods 511 in a sliding way, a first elastic piece 512 is symmetrically connected between the fixed frame 1 and the first guide rods 511 in the same side, limiting rings 513 are symmetrically arranged on the inner walls of the three fixing shells 503 up and down, and the fixing frames 1 are matched with the limiting rings 513.

The pigment supplementing mechanism 6 comprises a fixing box 601, a foam-rubber cushion 602, pigment boxes 603, a flow guide pipe 604, a box cover 605 and a driving wheel 606, wherein the fixing boxes 601 are arranged at the end parts of the six first connecting rods 510, the foam-rubber cushion 602 is arranged in the six fixing boxes 601, the pigment boxes 603 are arranged on the six first connecting rods 510, the flow guide pipe 604 is connected between the pigment boxes 603 and the fixing boxes 601 on the same side, the box cover 605 is arranged at the top of the six pigment boxes 603, the driving wheel 606 is symmetrically arranged on the six first rotating shafts 2, and the driving wheel 606 is matched with the limiting ring 513.

When needs carry out seal mark to EVA bubble cotton pad surface, the staff takes off case lid 605, later, the staff adds seal mark pigment in the pigment case 603, after accomplishing, the staff puts back case lid 605, seal mark pigment in the pigment case 603 flows into in the foam pad 602 through honeycomb duct 604 thereupon, after accomplishing, then the staff starts servo motor 508, servo motor 508's output shaft rotates the second pivot 505 that drives the lower part and rotates, lower part second pivot 505 rotates and drives belt pulley assembly 506 and rotates, belt pulley assembly 506 rotates and drives the upper portion and middle part second pivot 505 rotation, three second pivot 505 rotates and drives head rod 510 through fixed ring 509 and rotate, head rod 510 rotates and drives mount 1 rotation, mount 1 rotates and inwards slides along with the spacing ring 513 contact, first elastic component 512 is compressed, mount 1 rotates and drives drive wheel 606 and spacing ring 513 contact, make first pivot 2 rotate along with this moment, first pivot 2 rotates and drives roller wheel 3 and rotates and make icon 4 fully contact with foam pad 602, lower part second pivot 505 rotates and drives belt pulley assembly 506 and rotates, belt pulley assembly 506 rotates and drives head rod 510 to rotate with the whole seal mark pad that contacts with the cotton pad, the whole seal mark bubble cotton pad is carried out to the pad surface is accomplished to the pad surface is reset, the contact with the pad of EVA is carried out to the pad 1, the contact pad is reset and is carried out to the pad surface is reset and is completely to the pad is contacted with the pad's surface is contacted with EVA pad's EVA pad's 4. This device simple structure, seal mark pigment in the pigment case 603 can flow into the foam-rubber cushion 602 through honeycomb duct 604 for adsorb a certain amount of pigment in the foam-rubber cushion 602, be convenient for icon piece 4 to be stained with, the roller wheel 3 removes and drives icon piece 4 and EVA bubble cotton pad surface contact and has realized seal mark to EVA bubble cotton pad surface.

Example 3

As shown in fig. 1, 6, 7, 8, 9, 10, 11, 12 and 13, on the basis of embodiment 2, the feeding device further comprises a feeding mechanism 7, wherein the feeding mechanism 7 comprises a slideway 701, a support column 702, a blanking hopper 703, a placing tray 704 and a first limiting plate 705, the slideway 701 is arranged between the front sides of the three fixing shells 503, the support column 702 is arranged on the rear sides of the lower fixing shells 503 and the top fixing shells, the placing tray 704 is arranged between the tops of the two support columns 702, the blanking hopper 703 is arranged on the front side of the placing tray 704, the bottom of the blanking hopper 703 is communicated with the top of the slideway 701, and the first limiting plate 705 is arranged on the front side of the slideway 701.

When needs carry out the seal mark to EVA bubble cotton pad surface, the staff stacks the EVA bubble cotton pad in proper order on placing tray 704, then EVA bubble cotton pad drops to in the slide 701 through blanking hopper 703, simultaneously the staff uses the instrument to block up blanking hopper 703, when mount 1 rotates and drives roller wheel 3 to remove the opening part of fixed shell 503, roller wheel 3 rotates and drives icon piece 4 and EVA bubble cotton pad surface contact and have realized the seal mark to EVA bubble cotton pad surface, it shifts EVA bubble cotton pad left movement to stir when the seal mark is accomplished, the EVA bubble cotton pad that the seal mark is accomplished falls out through slide 701 thereupon, the staff gathers in a concentrated way, when needs carry out the seal mark to next EVA bubble cotton pad, the staff takes off the instrument that blocks up on blanking hopper 703 again for next EVA bubble cotton pad drops and carries out the seal mark. This device simple structure places dish 704 and can place the cotton pad of EVA bubble, no longer need the manual work to hold the cotton pad of EVA bubble constantly and seal the mark, can make the cotton pad of EVA bubble drop to slide 701 in seal the mark under the effect of blanking fill 703.

The stamping stabilizing mechanism 8 comprises a second elastic piece 801, a second limiting plate 802, a second connecting rod 803, a second guide rod 804, a third elastic piece 805 and a triangular ejector block 806, three second limiting plates 802 are arranged on the slideway 701 in a sliding mode, the three second limiting plates 802 are arranged in a stepped mode, second elastic pieces 801 are connected between the three second limiting plates 802 and the first limiting plate 705, second connecting rods 803 are symmetrically arranged on the three fixing rings 509 in a bilateral symmetry mode, second guide rods 804 are arranged on the six second connecting rods 803 in a sliding mode, triangular ejector blocks 806 are arranged at the ends of the six second guide rods 804, the triangular ejector blocks 806 are made of rubber, the triangular ejector blocks 806 are matched with the second limiting plates 802, and third elastic pieces 805 are connected between the triangular ejector blocks 806 and the ends of the second connecting rods 803 on the same side.

When an operator places a single EVA foam pad on the placing disc 704, the EVA foam pad falls onto the second limiting plate 802 through the blanking hopper 703, then when the roller wheel 3 is driven to move to the opening of the fixed shell 503 through the rotation of the fixed frame 1, the roller wheel 3 rotates to drive the icon block 4 to be in contact with the surface of the EVA foam pad so as to print marks on the surface of the EVA foam pad, when the triangular top block 806 rotates to be in contact with the second limiting plate 802, the triangular top block 806 slides backwards along with the EVA foam pad, the third elastic piece 805 is compressed along with the EVA foam pad, meanwhile, the second limiting plate 802 is extruded to slide forwards, the second elastic piece 801 is compressed along with the EVA foam pad, the second limiting plate 802 slides forwards without dragging the EVA foam pad, when the triangular top block 806 rotates to be out of contact with the second limiting plate 802, the third elastic piece 805 resets along with the triangular top block 806 to slide forwards to reset, the triangular top block 806 resets along with the second elastic piece 801 to slide backwards to be in contact with the EVA foam pad, and the triangular top block 806 is driven to move leftwards under the action of the rotation of the fixed ring 509, and the EVA foam pad can be collected by the EVA foam pad is enabled to move by the sliding of the EVA foam pad. The device is simple in structure, and under the action of the second limiting plate 802, the EVA foam pad can be prevented from falling off through the slideway 701 in the process of marking, so that marking is not clear.

The blanking mechanism 9 is defined, the blanking mechanism 9 comprises a limiting frame 901, a connecting plate 902, a first striker plate 903, fourth elastic pieces 904, a transmission plate 905, a third connecting rod 906, a moving plate 907 and fifth elastic pieces 908, the front side of the upper portion of the first limiting plate 705 is provided with the limiting frame 901, the connecting plate 902 is slidably arranged in the limiting frame 901, the connecting plate 902 is slidably matched with the first limiting plate 705, the top of the connecting plate 902 is provided with the first striker plate 903, the first striker plate 903 is slidably connected with the blanking hopper 703, the bottom of the connecting plate 902 is slidably provided with the transmission plate 905, four fourth elastic pieces 904 are uniformly connected between the top of the transmission plate 905 and the connecting plate 902 at intervals, the initial state of the fourth elastic pieces 904 is a compression state, the front side of the second limiting plate 802 is symmetrically provided with the third connecting rod 906, the moving plate 907 is arranged between the two third connecting rods 906, the moving plate 907 is slidably connected with the first limiting plate 705, the transmission plate 905 is slidably connected with the moving plate 907, and the fifth elastic pieces 908 are connected between the connecting plate 902 and the first limiting plate 705.

When the second limiting plate 802 slides forwards, the second limiting plate 802 slides forwards to drive the moving plate 907 to slide forwards through the third connecting rod 906, the fourth elastic piece 904 resets to drive the transmission plate 905 to slide downwards and clamp into the moving plate 907, when the second elastic piece 801 resets to drive the second limiting plate 802 to slide backwards and reset, the second limiting plate 802 slides backwards to drive the moving plate 907 to slide backwards through the third connecting rod 906, the moving plate 907 slides backwards to drive the connecting plate 902 to slide backwards through the transmission plate 905, the fifth elastic piece 908 is compressed, the connecting plate 902 slides backwards to drive the first striker plate 903 to slide backwards so that the blanking hopper 703 is communicated with the slideway 701, the EVA foam pad falls onto the second limiting plate 802 to print marks, after the connecting plate 902 slides backwards to a certain distance, the protrusion on the first limiting plate 705 then extrudes the transmission plate 905 to slide upwards, the fourth elastic piece 904 is compressed, the transmission plate upwards slides no longer to clamp the moving plate 907, the fifth elastic piece 908 resets to drive the connecting plate 902 to slide backwards, the connecting plate 902 slides forwards to drive the transmission plate 903 to slide forwards and slide forwards to drive the moving plate 905 to contact the moving plate 905 to slide forwards, the striker plate 903 to slide forwards, and the EVA foam pad is no longer to slide forward, and the EVA foam pad is prevented from falling down to slide forwards. The device has a simple structure, and the connecting plate 902 is driven to slide backwards under the action of the backward sliding of the second limiting plate 802, so that the blanking hopper 703 is communicated with the slide rail 701, and further, the automatic blanking of the EVA foam pad is realized for marking, and the marking efficiency is improved.

The limiting mechanism 10 comprises a fixed frame 1001, sixth elastic pieces 1002, a clamping plate 1003, a second striker plate 1004 and a seventh elastic piece 1005, wherein the fixed frame 1001 is arranged on the front side of the lower portion of the first limiting plate 705, the clamping plate 1003 is arranged in the fixed frame 1001 in a sliding mode, four sixth elastic pieces 1002 are uniformly arranged between the top of the clamping plate 1003 and the fixed frame 1001 at intervals, the initial state of the sixth elastic pieces 1002 is a compression state, the second striker plate 1004 is arranged on the lower portion of the first limiting plate 705 in a sliding mode, the clamping plate 1003 is matched with the second striker plate 1004, and the seventh elastic pieces 1005 are symmetrically connected between the front side of the second striker plate 1004 and the lower portion of the first limiting plate 705.

When the device is used, a worker pulls the second striker plate 1004 to slide forwards, the seventh elastic piece 1005 is compressed, the second striker plate 1004 slides forwards to open the discharge hole of the slideway 701, when the second striker plate 1004 slides forwards to a certain position, the sixth elastic piece 1002 resets to drive the clamping plate 1003 to slide downwards to clamp into the second striker plate 1004, the second striker plate 1004 is limited, the EVA foam pad with the mark drops out through the discharge hole of the slideway 701, the worker collects by using the collecting frame, after the collecting frame is fully collected, the worker pulls the clamping plate 1003 to slide upwards, the sixth elastic piece 1002 is compressed, the clamping plate 1003 slides upwards to not clamp the second striker plate 1004 any more, the seventh elastic piece 1005 resets to drive the second striker plate 1004 to slide backwards to close the discharge hole of the slideway 701, the EVA foam pad does not drop any more, and then the worker replaces the collecting frame. This device simple structure, screens board 1003 slide down and carry out spacingly to second striker plate 1004, do not need the staff to pull second striker plate 1004 at unloading in-process for a long time and open the discharge gate of slide 701, and second striker plate 1004 slide backward and reset the discharge gate of slide 701 and close, the staff of being convenient for changes the collection frame.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (4)

1. The utility model provides a EVA bubble cotton pad surface seal mark device which characterized in that includes:

the support mechanism (5), six fixing frames (1) are arranged on the support mechanism (5) in a sliding mode; the six fixing frames (1) are respectively provided with the first rotating shafts (2) in a rotating mode;

the rolling wheels (3) are arranged on the six first rotating shafts (2);

icon blocks (4), wherein a circle of icon blocks (4) are arranged on each of the six rolling wheels (3); the pigment supplementing mechanism (6) is arranged on the supporting mechanism (5) and the fixing frame (1), and the pigment supplementing mechanism (6) is arranged on the fixing frame (1);

the support mechanism (5) comprises:

the bottom plate (501), both sides of the top of the bottom plate (501) are symmetrically provided with supporting seats (502); the support rings (504) are symmetrically arranged between the two support seats (502) on one side, and the support rings (504) are arranged vertically;

the fixing device comprises fixing shells (503), wherein the fixing shells (503) are arranged at the tops of two supporting seats (502), the same fixing shells (503) are arranged between the tops of two supporting seats (502) at the other side, and three fixing shells (503) are arranged in a step mode;

the center positions of the two supporting rings (504) are respectively provided with the second rotating shafts (505) in a rotating mode, and the center positions of the fixed shells (503) at the lower parts are respectively provided with the same second rotating shafts (505) in a rotating mode;

the belt pulley assembly (506), the belt pulley assembly (506) is composed of two belt pulleys and a flat belt, the belt pulleys are arranged at the upper end and the lower end of the second rotating shaft (505) in the middle, the belt pulley is arranged at the top end of the second rotating shaft (505) in the lower part, the belt pulley is arranged at the bottom end of the second rotating shaft (505) in the upper part, and the flat belt is wound between the two adjacent belt pulleys;

the motor base (507) is arranged on one side of the top of the bottom plate (501); the servo motor (508) is arranged at the top of the motor seat (507), and an output shaft of the servo motor (508) is connected with the top end of the second rotating shaft (505) at the lower part through a coupler;

a fixed ring (509), wherein the fixed rings (509) are arranged on the three second rotating shafts (505);

the first connecting rods (510) are symmetrically arranged on the three fixing rings (509);

the six first connecting rods (510) are respectively provided with the first guide rods (511), and the fixing frame (1) is connected with the first guide rods (511) in a sliding mode;

the first elastic piece (512) is symmetrically connected between the fixing frame (1) and the first guide rod (511) at the same side, and the first elastic piece (512) is symmetrically connected between the fixing frame and the first guide rod;

the limiting rings (513) are symmetrically arranged on the inner walls of the three fixing shells (503) up and down, and the fixing frames (1) are matched with the limiting rings (513);

the pigment replenishing mechanism (6) comprises:

the fixing boxes (601) are arranged at the ends of the six first connecting rods (510);

the sponge pads (602) are arranged in the six fixing boxes (601); the pigment boxes (603) are arranged on the six first connecting rods (510);

a flow guide pipe (604), wherein the flow guide pipe (604) is connected between the pigment box (603) and the fixed box (601) at the same side;

the box covers (605), and the box covers (605) are arranged on the tops of the six pigment boxes (603); the driving wheels (606) are symmetrically arranged on the six first rotating shafts (2) up and down, and the driving wheels (606) are matched with the limiting rings (513);

still including feeding mechanism (7), feeding mechanism (7) include:

a slideway (701), wherein the slideway (701) is arranged between one sides of the three fixed shells (503); the support columns (702) are arranged on one side of the bottom and one side of the top fixing shell (503);

a placing tray (704), wherein the placing tray (704) is arranged between the tops of the two supporting columns (702);

the blanking hopper (703), one side of the placing plate (704) is provided with the blanking hopper (703), and the bottom of the blanking hopper (703) is communicated with the top of the slideway (701);

a first limiting plate (705), wherein one side of the slideway (701) is provided with the first limiting plate (705);

still including seal and press stabilizing mean (8), seal and press stabilizing mean (8) include:

the sliding way (701) is provided with three second limiting plates (802) in a sliding way, and the three second limiting plates (802) are arranged in a step-type manner;

the second elastic pieces (801) are connected between the three second limiting plates (802) and the first limiting plate (705);

the second connecting rods (803) are symmetrically arranged on the three fixing rings (509);

the second guide rods (804) are arranged on the six second connecting rods (803) in a sliding mode, and the second guide rods (804) are arranged on the six second connecting rods;

the triangular jacking blocks (806) are arranged at the ends of the six second guide rods (804), and the triangular jacking blocks (806) are matched with the second limiting plates (802);

the third elastic piece (805) is connected between the triangular jack block (806) and the end part of the second connecting rod (803) on the same side;

when an operator places a single EVA foam pad on a placing disc (704), the EVA foam pad falls onto a second limiting plate (802) through a blanking hopper (703), then a fixing frame (1) rotates to drive a roller wheel (3) to move to an opening of a fixing shell (503), the roller wheel (3) rotates to drive an icon block (4) to be in contact with the surface of the EVA foam pad to realize marking on the surface of the EVA foam pad, when the triangular top block (806) rotates to be in contact with the second limiting plate (802), the triangular top block (806) slides backwards along with the triangular top block, a third elastic piece (805) is compressed along with the triangular top block, meanwhile, the second limiting plate (802) is extruded to slide forwards, the second elastic piece (801) is compressed along with the second limiting plate (802) and does not drag the EVA foam pad, when the triangular top block (806) rotates to be out of contact with the second limiting plate (802), the third elastic piece (805) resets to drive the triangular top block (806) to slide forwards to reset along with the second elastic piece (801) to drive the second limiting plate (802) to move forwards, the triangular top block (806) to rotate forwards to rotate along with the EVA foam pad (803 to rotate forwards due to the fact that the triangular top block (801) rotates forwards to rotate to contact with the EVA foam pad (803 to rotate forwards, the triangular top block (803 rotates forwards to move forwards to rotate to a certain contact with the pad (509), the EVA foam pad falls off along with the EVA foam pad through a slideway (701), and is collected by staff.

2. The EVA foam pad surface marking device of claim 1, wherein,

the device also comprises a limiting blanking mechanism (9), wherein the limiting blanking mechanism (9) comprises:

the limiting frame (901) is arranged on one side of the upper part of the first limiting plate (705);

the connecting plates (902) are arranged in the limiting frames (901) in a sliding mode, and the connecting plates (902) are matched with the first limiting plates (705) in a sliding mode;

the first striker plates (903) are arranged at the tops of the connecting plates (902), and the first striker plates (903) are connected with the blanking hopper (703) in a sliding mode; the transmission plate (905), the transmission plate (905) is arranged at the bottom of the connecting plate (902) in a sliding manner;

four fourth elastic pieces (904) are uniformly connected between the top of the transmission plate (905) and the connecting plate (902) at intervals, and the initial state of the fourth elastic pieces (904) is a compression state;

the third connecting rod (906) is symmetrically arranged on one side of the second limiting plate (802);

the moving plate (907) is arranged between the two third connecting rods (906), the moving plate (907) is connected with the first limiting plate (705) in a sliding mode, and the transmission plate (905) is matched with the moving plate (907);

and a fifth elastic piece (908), wherein the fifth elastic piece (908) is connected between the connecting plate (902) and the first limiting plate (705).

3. The EVA foam pad surface marking device as defined in claim 2, further comprising a limiting mechanism (10), wherein the limiting mechanism (10) comprises:

a fixed frame (1001), wherein one side of the lower part of the first limiting plate (705) is provided with the fixed frame (1001);

a clamping plate (1003), wherein the clamping plate (1003) is slidably arranged in the fixed frame (1001);

the sixth elastic pieces (1002) are uniformly arranged between the top of the clamping plate (1003) and the fixed frame (1001) at intervals, four sixth elastic pieces (1002) are connected, and the initial state of the sixth elastic pieces (1002) is a compression state;

the second striker plate (1004), the second striker plate (1004) is arranged at the lower part of the first limiting plate (705) in a sliding mode, and the clamping plate (1003) is matched with the second striker plate (1004);

and a seventh elastic piece (1005) is symmetrically connected between one side of the second striker plate (1004) and the lower part of the first limiting plate (705), and the seventh elastic piece (1005) is symmetrically connected between the second striker plate (1004) and the lower part of the first limiting plate.

4. A surface marking device for EVA foam pad as claimed in claim 3, wherein the triangular jack (806) is made of rubber.