CN109864396B - High-efficient type sole gluing machine - Google Patents

Abstract

The invention belongs to the technical field of shoe processing and production, and particularly relates to an efficient sole gluing machine. The invention aims to solve the technical problem of providing an efficient shoe sole gluing machine which can improve the gluing work efficiency, ensure the even gluing of a shoe sole, has higher automation degree, can save the gluing processing cost of the shoe sole and can avoid the over-quick condensation of glue. An efficient sole gluing machine comprises a first support, a first mounting frame body, a second support and a shoe placing mechanism; the first installation frame body, the second installation frame body and the third installation frame body are welded from left to right in sequence. The invention can improve the gluing work efficiency, ensure the even gluing of the sole, have higher automation degree, save the sole gluing processing cost and avoid the too fast condensation of glue.

Description

High-efficient type sole gluing machine

Technical Field

The invention belongs to the technical field of shoe processing and production, and particularly relates to an efficient sole gluing machine.

Background

Shoes, an article worn on feet to prevent the feet from being injured, are mostly straw sandals and cloth shoes in the early stage of human civilization history, and are more common in leather shoes and sports shoes nowadays; sizing refers to the process of uniformly applying a size (including solvent size, latex, and aqueous size) to the surface of a fabric or other carrier.

The current shoe processing flow mainly comprises the following procedures: sampling, template printing, blanking, running and binding, tightening and shaping, ground buckling, shoe polishing, light spraying and boxing, wherein before the vamp and the sole are attached, the sole is generally coated with glue, but the gluing process is generally manual gluing, the gluing process can easily cause uneven gluing of the sole and slow working efficiency, in addition, when a sole-free shoe is sleeved on a shoe mold, slight swelling can occur, uneven gluing can also easily cause, in addition, the glue is easily wasted in the manual gluing process, the cost of sole gluing processing is increased, and therefore, the development of an efficient sole gluing machine which can improve the gluing working efficiency, ensure that the sole is evenly glued, has high automation degree, can save the sole processing cost and can avoid the glue from being condensed too fast is urgently needed.

Disclosure of Invention

The invention aims to overcome the defects of uneven gluing, low gluing working efficiency and higher sole gluing processing cost of the existing manual gluing, and the technical problem to be solved is to provide an efficient sole gluing machine which can improve the gluing working efficiency, ensure the sole gluing to be even, has higher automation degree, save the sole gluing processing cost and avoid the glue from being condensed too fast.

The invention is achieved by the following specific technical means:

an efficient sole gluing machine comprises a first support, a first mounting frame body, a second support, a shoe placing mechanism, a shoe loading mechanism, a shoe holding mechanism, a gluing mechanism, a shoe collecting mechanism and a third mounting frame body; the shoe storage device is characterized in that a first mounting frame body, a second mounting frame body and a third mounting frame body are sequentially welded from left to right, a first support is welded on the right side of the first mounting frame body and the right side of the third mounting frame body, a second support is welded on the left side of the first mounting frame body and the left side of the third mounting frame body, a shoe placing mechanism is mounted on the first mounting frame body, a shoe feeding mechanism is mounted at the top of the first support and the top of the second support, a shoe supporting mechanism is in transmission connection with the output end of the shoe feeding mechanism, a gluing mechanism is mounted on the second mounting frame body, and a shoe collecting mechanism is mounted on;

the shoe placing mechanism comprises a first cylinder and a placing disc; the first air cylinder is embedded in the middle of the top of the first installation frame body, the placing disc is in transmission connection with the output end of the first air cylinder, and the top of the placing disc is provided with a placing groove;

the shoe-mounting mechanism comprises a first mounting rod, a first sliding block, a mounting plate, a second mounting rod, a second sliding block, a first bearing seat, a first screw rod, a first motor, a supporting plate and a first nut; the first mounting rod is fixedly connected to the top of the second support, the second mounting rod is fixedly connected to the top of the first support, a first sliding groove is formed in the top of the first mounting rod, and a second sliding groove is formed in the top of the second mounting rod; one end of the bottom of the mounting plate is connected with the first sliding chute in a sliding manner through a first sliding block, and the other end of the bottom of the mounting plate is connected with the second sliding chute in a sliding manner through a second sliding block; the first motor is fixedly connected to the rear end of the second mounting rod through a supporting plate, and the first bearing seat is fixedly connected to the side part of the second mounting rod; one end of the first screw rod is pivoted with the first bearing seat, and the other end of the first screw rod is rotatably connected with the output end of the first motor; the first nut is fixedly connected to the bottom of the mounting plate and is in threaded connection with the first lead screw;

the shoe holding mechanism comprises a third sliding block, a first rubber clamping block, a first supporting rod, a second bearing seat, a second nut, a second screw rod, a third screw rod, a fourth sliding block, a third nut, a second supporting rod, a second rubber clamping block and a second motor; the mounting plate is provided with a third sliding groove, the third sliding block and the fourth sliding block are both connected with the third sliding groove in a sliding mode, the first supporting rod is fixedly connected to the bottom of the third sliding block, the second supporting rod is fixedly connected to the bottom of the fourth sliding block, the first rubber clamping block is fixedly connected to the side portion of the first supporting rod, the second rubber clamping block is fixedly connected to the side portion of the second supporting rod, the first rubber clamping block corresponds to the second rubber clamping block, the second bearing seat is fixedly connected to the left end of the top of the mounting plate, the second nut is fixedly connected to the top of the third sliding block, and the third nut is fixedly connected to the top; one end of the second screw rod is pivoted with the second bearing seat, and the other end of the second screw rod is fixedly connected with the third screw rod; the thread turning directions of the second screw rod and the third screw rod are opposite, the second screw rod is in threaded connection with the second nut, the third screw rod is in threaded connection with the third nut, the second motor is fixedly connected to the right end of the top of the mounting plate, and the end part of the third screw rod is in transmission connection with the output end of the second motor;

the gluing mechanism comprises a third bearing seat, a first rotating shaft, a fourth bearing seat, a first driving wheel, a first driving belt, a third motor, a second driving wheel, a second driving belt, a third support plate, a fourth support plate, a first gluing roller, a gluing frame, a fifth bearing seat, a second rotating shaft, a first gluing roller and a second gluing roller; the third support plate is fixedly connected between the second supports, the fourth support plate is fixedly connected between the first supports, a plurality of fourth bearing seats are embedded in the right side of the third support plate at equal intervals, and a plurality of third bearing seats are embedded in the left side of the fourth support plate at equal intervals; one end of the first rotating shaft is pivoted with the third bearing seat, and the other end of the first rotating shaft is pivoted with the fourth bearing seat; the first gluing roller is fixedly connected to the middle of the first rotating shaft, the first gluing roller is positioned right above the second mounting frame, the third motor is fixedly connected to the inner top of the first mounting frame, the second driving wheel is in transmission connection with the output end of the third motor, the first driving wheel is fixedly connected to the first rotating shaft, the first driving wheel is in transmission connection with the second driving wheel through a second driving belt, the first driving wheel is in transmission connection with the first driving belt, the gluing frame is detachably mounted in the second mounting frame, the plurality of fifth bearing seats are embedded in the gluing frame on two sides, the end part of the second rotating shaft is in pin joint with the fifth bearing seat, the second gluing roller is fixedly connected to the second rotating shaft, and the outer surface of the second gluing roller is in contact connection with the outer surface of the first gluing roller;

the shoe collecting mechanism comprises a second heating lamp tube, a second heating plate and a placing screen plate; placing the otter board and installing in the third installation frame with the detachable mode, a plurality of second heating fluorescent tubes evenly distributed is bottom in the third installation frame, and the second hot plate rigid coupling is in the third installation frame, and the second hot plate is located the second heating fluorescent tube, places between the otter board.

Furthermore, the efficient sole gluing machine also comprises a first heating lamp tube, a first heating plate and a supporting block; a plurality of first heating fluorescent tubes evenly distributed in the second installation framework bottom, first hot plate rigid coupling is in the second installation framework, and the rubberizing frame is placed in first hot plate top.

Furthermore, the efficient sole gluing machine also comprises a first screw hole plate with a screw hole, a second screw hole plate with a screw hole and a bolt; the second installation framework is provided with an entrance and an exit for the glue feeding frame to enter and exit, the glue feeding frame is placed at the top of the first heating plate, a plurality of second screw hole plates with screw holes are fixedly connected to two side parts of the glue feeding frame, a first screw hole plate with screw holes corresponding to the second screw hole plate with screw holes is arranged on the outer surface of the second installation framework, and the bolt is in threaded fit with the first screw hole plate with screw holes and the second screw hole plate with screw holes.

Furthermore, a groove is further formed in the front side of the gluing frame.

Further, two inboards of rubberizing frame still the rigid coupling have the wedge, and the wedge sets up about rubberizing frame width direction's axis symmetry, second rubberizing roller is located between the wedge.

Furthermore, the efficient sole gluing machine also comprises a second cylinder, a lower pressing plate and an installation block; the second cylinder passes through the installation piece rigid coupling in mounting panel bottom, and the second cylinder is located and places the dish directly over, and lower pressure disk is connected with second cylinder output transmission.

Furthermore, a hard rubber pad is fixedly connected in the placing groove.

Furthermore, a first through hole is formed in the lower end of the side portion of the second mounting frame body and located below the first heating plate, a second through hole is formed in the lower end of the side portion of the third mounting frame body and located below the second heating plate, and the first through hole is communicated with the second through hole.

Furthermore, supporting blocks are fixedly connected to two inner sides of the third mounting frame body, the placing screen plate is placed at the top of each supporting block, and the distance between the top of the placing screen plate and the top of the first gluing roller is fifteen centimeters to twenty centimeters.

Further, the cross sections of the side parts of the first rubber clamping block and the second rubber clamping block are S-shaped.

Compared with the prior art, the invention has the following beneficial effects:

the invention can improve the gluing work efficiency, ensure the even gluing of the sole, have higher automation degree, save the sole gluing processing cost and avoid the too fast condensation of glue.

1. The invention is characterized in that the bottomless shoe sleeved with the shoe mold is placed on the shoe placing mechanism so that the shoe holding mechanism can clamp the bottomless shoe sleeved with the shoe mold, then, when the shoe feeding mechanism moves the bottomless shoe sleeved with the shoe mold by starting the gluing mechanism, so that the output end of the gluing mechanism can evenly spread glue on the bottom surface of the bottomless shoe of the shoe mold, and finally, when the bottomless shoes are positioned above the shoe collecting mechanism, the shoe holding mechanism is started again to enable the bottomless shoes to be placed on the shoe collecting mechanism, meanwhile, the temperature in the third mounting frame is increased by starting the shoe collecting mechanism, so that the glue on the glued bottomless shoes is prevented from being too fast condensed when the glued bottomless shoes are placed on the placing screen plate, so, reach and improve rubber coating work efficiency enough, guarantee that the sole rubber coating is even, degree of automation is higher, can save sole rubber coating processing cost.

2. According to the invention, by starting the second cylinder, the second cylinder can drive the lower pressing disc to downwardly compact the bottomless shoe, so that the bottomless shoe is tightly attached to the shoe mold, and the bottomless shoe can be uniformly coated with glue.

Drawings

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

FIG. 2 is a left side view of the shoe placement mechanism of the present invention.

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

Fig. 4 is a schematic perspective view of the shoe-mounting mechanism of the present invention.

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

Fig. 6 is a top view sectional structure diagram of the gluing mechanism of the invention.

Fig. 7 is a right view sectional structure diagram of the gluing mechanism of the invention.

Fig. 8 is a front view sectional structure diagram of the gluing frame of the invention.

Fig. 9 is an assembly structure diagram of the second mounting frame and the gluing frame according to the present invention.

FIG. 10 is a right sectional view of the shoe-collecting mechanism of the present invention.

The labels in the figures are: 1-a first bracket, 2-a first mounting frame body, 3-a second mounting frame body, 4-a second bracket, 5-a shoe placing mechanism, 51-a first air cylinder, 52-a placing disc, 53-a placing groove, 54-a hard rubber pad, 6-a shoe placing mechanism, 61-a first mounting rod, 62-a first sliding groove, 63-a first sliding block, 64-a mounting plate, 65-a second mounting rod, 66-a second sliding groove, 67-a second sliding block, 68-a first bearing seat, 69-a first screw rod, 610-a first motor, 611-a supporting plate, 612-a first nut, 7-a shoe holding mechanism, 71-a third sliding groove, 72-a third sliding block, 73-a first rubber clamping block, 74-a first supporting rod, 75-a second bearing seat, 76-a second nut, 77-a second screw rod, 78-a third screw rod, 79-a fourth sliding block, 710-a third nut, 711-a second supporting rod, 712-a second rubber clamping block, 713-a second motor, 8-a gluing mechanism, 81-a third bearing seat, 82-a first rotating shaft, 83-a fourth bearing seat, 84-a first driving wheel, 85-a first driving belt, 86-a third motor, 87-a second driving wheel, 88-a second driving belt, 89-a third bearing plate, 810-a fourth bearing plate, 811-a first heating lamp tube, 812-a first heating plate, 813-a gluing frame, 814-a fifth bearing seat, 815-a second rotating shaft, 816-a first gluing roller, 817-a second gluing roller, 818-a wedge-shaped block, 819-a first belt screw hole plate, 820-a second hole plate with a screw hole, 821-a bolt, 822-an inlet and an outlet, 823-a groove, 9-a shoe collecting mechanism, 91-a second heating lamp tube, 92-a second heating plate, 93-a placing net plate, 94-a supporting block, 10-a second air cylinder, 11-a lower pressing plate, 12-an installation block, 13-a third installation frame body, 101-a first through hole and 102-a second through hole.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

examples

An efficient shoe sole gluing machine is shown in figures 1-10 and comprises a first support 1, a first mounting frame 2, a second mounting frame 3, a second support 4, a shoe placing mechanism 5, a shoe feeding mechanism 6, a shoe holding mechanism 7, a gluing mechanism 8, a shoe collecting mechanism 9 and a third mounting frame 13; the shoe storage device is characterized in that the shoe storage device is formed by sequentially welding a first installation frame body 2, a second installation frame body 3 and a third installation frame body 13 from left to right, a first support 1 is welded on the right side of the first installation frame body 2 and the right side of the third installation frame body 13, a second support (4) is welded on the left side of the first installation frame body 2 and the left side of the third installation frame body 13, a shoe placing mechanism 5 is installed on the first installation frame body 2, a shoe feeding mechanism 6 is installed on the tops of the first support 1 and the second support 4, a shoe holding mechanism 7 is in transmission connection with the output end of the shoe feeding mechanism 6, a gluing mechanism 8 is installed on the second installation frame body 3, and a shoe;

the shoe placing mechanism 5 comprises a first cylinder 51 and a placing disc 52; the first air cylinder 51 is embedded in the middle of the top of the first mounting frame body 2, the placing disc 52 is in transmission connection with the output end of the first air cylinder 51, and the top of the placing disc 52 is provided with a placing groove 53;

the shoe-mounting mechanism 6 comprises a first mounting rod 61, a first slide block 63, a mounting plate 64, a second mounting rod 65, a second slide block 67, a first bearing seat 68, a first screw rod 69, a first motor 610, a support plate 611 and a first nut 612; the first mounting rod 61 is fixedly connected to the top of the second support 4, the second mounting rod 65 is fixedly connected to the top of the first support 1, the first sliding groove 62 is formed in the top of the first mounting rod 61, and the second sliding groove 66 is formed in the top of the second mounting rod 65; one end of the bottom of the mounting plate 64 is in sliding connection with the first sliding groove 62 through a first sliding block 63, and the other end of the bottom of the mounting plate 64 is in sliding connection with the second sliding groove 66 through a second sliding block 67; the first motor 610 is fixedly connected to the rear end of the second mounting rod 65 through a support plate 611, and the first bearing seat 68 is fixedly connected to the side of the second mounting rod 65; one end of the first lead screw 69 is pivotally connected to the first bearing seat 68, and the other end is rotatably connected to the output end of the first motor 610; the first nut 612 is fixedly connected to the bottom of the mounting plate 64, and the first nut 612 is in threaded fit with the first lead screw 69;

the shoe holding mechanism 7 comprises a third slide block 72, a first rubber clamping block 73, a first support rod 74, a second bearing seat 75, a second nut 76, a second screw rod 77, a third screw rod 78, a fourth slide block 79, a third nut 710, a second support rod 711, a second rubber clamping block 712 and a second motor 713; the mounting plate 64 is provided with a third sliding groove 71, the third sliding block 72 and the fourth sliding block 79 are both connected with the third sliding groove 71 in a sliding manner, the first support rod 74 is fixedly connected to the bottom of the third sliding block 72, the second support rod 711 is fixedly connected to the bottom of the fourth sliding block 79, the first rubber clamping block 73 is fixedly connected to the side portion of the first support rod 74, the second rubber clamping block 712 is fixedly connected to the side portion of the second support rod 711, the first rubber clamping block 73 corresponds to the second rubber clamping block 712, the second bearing seat 75 is fixedly connected to the left end of the top of the mounting plate 64, the second nut 76 is fixedly connected to the top of the third sliding block 72, and the third nut 710 is fixedly connected to the top of; one end of the second lead screw 77 is pivotally connected to the second bearing seat 75, and the other end is fixedly connected to the third lead screw 78; the thread turning directions of the second screw rod 77 and the third screw rod 78 are opposite, the second screw rod 77 is in threaded connection with the second nut 76, the third screw rod 78 is in threaded connection with the third nut 710, the second motor 713 is fixedly connected to the right end of the top of the mounting plate 64, and the end part of the third screw rod 78 is in transmission connection with the output end of the second motor 713;

the glue coating mechanism 8 comprises a third bearing seat 81, a first rotating shaft 82, a fourth bearing seat 83, a first driving wheel 84, a first driving belt 85, a third motor 86, a second driving wheel 87, a second driving belt 88, a third support plate 89, a fourth support plate 810, a first gluing roller 816, a gluing frame 813, a fifth bearing seat 814, a second rotating shaft 815, a first gluing roller 816 and a second gluing roller 817; the third support plate 89 is fixedly connected between the second brackets 4, the fourth support plate 810 is fixedly connected between the first brackets 1, a plurality of fourth bearing seats 83 are embedded on the right side of the third support plate 89 at equal intervals, and a plurality of third bearing seats 81 are embedded on the left side of the fourth support plate 810 at equal intervals; one end of the first rotating shaft 82 is pivotally connected to the third bearing seat 81, and the other end is pivotally connected to the fourth bearing seat 83; a first gluing roller 816 is fixedly connected to the middle of the first rotating shaft 82, the first gluing roller 816 is positioned right above the second mounting frame body 3, a third motor 86 is fixedly connected to the inner top of the first mounting frame body 2, a second driving wheel 87 is in transmission connection with the output end of the third motor 86, a first driving wheel 84 is fixedly connected to the first rotating shaft 82, the first driving wheel 84 and the second driving wheel 87 are in transmission connection through a second driving belt 88, the first driving wheel 84 is in transmission connection through a first driving belt 85, a gluing frame 813 is detachably mounted in the second mounting frame body 3, a plurality of fifth bearing seats 814 are embedded in two sides of a gluing roller 813 of the gluing frame, the end of the second rotating shaft 815 is pivoted with the fifth shaft 814, a second gluing roller 817 is fixedly connected to the second rotating shaft bearing seat 815, and the outer surface of the second gluing roller 817 is in contact connection with the outer surface of the;

the shoe receiving mechanism 9 comprises a second heating lamp tube 91, a second heating plate 92 and a placing net plate 93; the placing screen plate 93 is detachably installed in the third installation frame body 13, the second heating lamp tubes 91 are uniformly distributed at the bottom in the third installation frame body 13, the second heating plate 92 is fixedly connected in the third installation frame body 13, and the second heating plate 92 is located between the second heating lamp tubes 91 and the placing screen plate 93.

When the bottom of the bottomless shoe sleeved with the mold needs to be glued, the bottomless shoe sleeved with the mold is only needed to be placed into the placing groove 53, at this time, the shoe holding mechanism 7 can be started, namely the second motor 713 is started in the forward direction, the second motor 713 can drive the second screw rod 77 and the third screw rod 78 to rotate, as the screw threads of the second screw rod 77 and the third screw rod 78 are in opposite directions, the second nut 76 and the third nut 710 are close to each other, namely the second nut 76 drives the first support rod 74 to move through the third slider 72, the third nut 710 drives the second support rod 711 to move through the fourth slider 79, the first rubber clamping block 73 and the second rubber clamping block 712 are closed to each other, and then the first rubber clamping block 73 and the second rubber clamping block 712 clamp the bottomless shoe sleeved with the mold, then, the first air cylinder 51 is started, the placing disc 52 is descended, so that the shoe feeding mechanism 6 moves, then, the gluing mechanism 8 is started, that is, the third motor 86 is started, the second driving wheel 87 rotates, the second driving wheel 87 can drive the first driving wheel 84 to rotate through the second driving belt 88, meanwhile, the first driving wheel 84 rotates mutually through the first driving belt 85, that is, the first rotating shaft 82 rotates, the first gluing roller 816 can rotate towards the third mounting frame 13, the outer surface of the second gluing roller 817 is in contact connection with the outer surface of the first gluing roller 816, the first gluing roller 816 can drive the second gluing roller 817 to rotate, glue can be coated on the first gluing roller 816 through the second gluing roller 817, so that gluing of subsequent bottomless shoes can be facilitated, waste of glue can be avoided, and therefore, the cost of sole gluing processing is reduced, finally, the shoe gluing mechanism 6 is started, that is, that the first motor 610 is started, the first motor 610 drives the first lead screw 69 to rotate, that the first nut 612 can move towards the third mounting frame 13, then the first nut 612 drives the shoe holding mechanism 7 with the pair of bottomless shoes to move towards the third mounting frame 13, in the process, the plurality of first gluing rollers 816 can evenly apply glue to the soles of the bottomless shoes, the bottomless shoes are positioned above the shoe collecting mechanism 9, the shoe holding mechanism 7 is immediately started again, namely the second motor 713 is started reversely, so that the bottomless shoes are not clamped by the first rubber clamping blocks 73 and the second rubber clamping blocks, and the bottomless shoes can automatically fall into the placing net plate 93; through all the processes, the effects of improving the gluing work efficiency, ensuring the even gluing of the sole, having higher automation degree and saving the sole gluing processing cost are achieved.

Before the above process starts, a certain amount of glue is injected into the gluing frame 813, so that the gluing operation can be performed, and meanwhile, the shoe collecting mechanism 9 is started, that is, the second heating lamp tube 91 is started to heat the second heating plate 92, so that the temperature of the third heating frame body is increased, and the glue on the glued bottomless shoes is prevented from being too fast condensed when the glued bottomless shoes are placed on the placing net plate 93.

In order to avoid the glue condensation in the gluing frame 813, referring to fig. 7, the efficient sole gluing machine further includes a first heating lamp 811, a first heating plate 812 and a supporting block 94; the first heating lamp tubes 811 are uniformly distributed at the inner bottom of the human installation frame body, the first heating plate 812 is fixedly connected in the second installation frame body 3, and the gluing frame 813 is placed at the top of the first heating plate 812.

When the first heating lamp 811 is turned on, the first heating lamp 811 can heat the first heating plate 812, and the first heating plate 812 generates heat and heats the glue frame 813, thereby preventing the glue in the glue frame 813 from being coagulated.

In order to facilitate the treatment of the glue condensed in the gluing frame 813 and the addition of the glue into the gluing frame 813, referring to fig. 9, the efficient sole gluing machine further includes a first threaded hole plate 819, a second threaded hole plate 820 and bolts 821; the second installation frame body 3 is provided with an inlet and an outlet 822 for the glue applying frame 813 to go in and out, the glue applying frame 813 is placed at the top of the first heating plate 812, a plurality of second screw hole plates 820 are fixedly connected to two side portions of the glue applying frame 813, a first screw hole plate 819 with a screw hole corresponding to the second screw hole plate 820 is arranged on the outer surface of the second installation frame body 3, and the bolt 821 is in threaded fit with the first screw hole plate 819 with a screw hole and the second screw hole plate 820 with a screw hole.

When the upper rubber frame 813 needs to be removed, the bolt 821 may be unscrewed from the first screw-threaded hole 819 and the second screw-threaded hole 820, and at this time, the upper rubber frame 813 may be removed from the second mounting frame 3.

In order to facilitate the removal of the gluing frame 813, referring to fig. 9, a groove 823 is further formed in the front side of the gluing frame 813.

In order to facilitate the second glue applying roller 817 to apply glue, referring to fig. 8, wedge blocks 818 are further fixedly connected to two inner sides of the glue applying frame 813, the wedge blocks 818 are symmetrically arranged about a central axis of the glue applying frame 813 in the width direction, and the second glue applying roller 817 is located between the wedge blocks 818.

The glue can run in the middle in the direction of the wedge 818 to facilitate the application of the glue by the second glue applicator 817.

In order to compact the bottomless shoes, the bottomless shoes are tightly attached to the shoe mold, so that the bottomless shoes can be uniformly coated, and as shown in fig. 1, the efficient sole gluing machine further comprises a second cylinder 10, a lower pressing plate 11 and a mounting block 12; the second cylinder 10 is fixedly connected to the bottom of the mounting plate 64 through a mounting block 12, the second cylinder 10 is located right above the placing plate 52, and the lower pressing plate 11 is in transmission connection with the output end of the second cylinder 10.

And starting the second cylinder 10, wherein the second cylinder 10 can drive the lower pressing plate 11 to compact the bottomless shoes downwards, so that the bottomless shoes are tightly attached to the shoe mold, and the bottomless shoes are uniformly coated with glue.

In order to avoid damage to the shoe mold and the shoes without soles, a hard rubber pad 54 is further fixed in the placement groove 53 as shown in fig. 3.

In order to facilitate the heat transfer in the second and third installation frames 3 and 13, referring to fig. 7, a first through hole 101 is formed at the lower end of the side portion of the second installation frame 3, the first through hole 101 is located below the first heating plate 812, a second through hole 102 is formed at the lower end of the side portion of the third installation frame 13, the second through hole 102 is located below the second heating plate 92, and the first through hole 101 and the second through hole 102 are communicated with each other.

In order to facilitate the placing screen plate 93 to be detached and cleaned, referring to fig. 10, two inner sides of the third mounting frame 13 are fixedly connected with a supporting block 94, the placing screen plate 93 is placed on the top of the supporting block 94, and a distance between the top of the placing screen plate 93 and the top of the first gluing roller 816 is fifteen centimeters to twenty centimeters.

In order to facilitate the first rubber clamping block 73 and the second rubber clamping block 712 to clamp the bottomless shoe and the bottomless shoe, referring to fig. 1, the cross sections of the side portions of the first rubber clamping block 73 and the second rubber clamping block are both S-shaped.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the supply of the power supply also belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (10)

1. An efficient shoe sole gluing machine is characterized by comprising a first support (1), a first mounting frame body (2), a second mounting frame body (3), a second support (4), a shoe placing mechanism (5), a shoe feeding mechanism (6), a shoe holding mechanism (7), a gluing mechanism (8), a shoe collecting mechanism (9) and a third mounting frame body (13); the shoe storage device is characterized in that the shoe storage device is formed by sequentially welding a first mounting frame body (2), a second mounting frame body (3) and a third mounting frame body (13) from left to right, a first support (1) is welded on the right side of the first mounting frame body (2) and the right side of the third mounting frame body (13), a second support (4) is welded on the left side of the first mounting frame body (2) and the left side of the third mounting frame body (13), a shoe placing mechanism (5) is mounted on the first mounting frame body (2), a shoe loading mechanism (6) is mounted on the tops of the first support (1) and the second support (4), a shoe holding mechanism (7) is in transmission connection with the output end of the shoe loading mechanism (6), a gluing mechanism (8) is mounted on the second mounting frame body (3), and a shoe collecting;

the shoe placing mechanism (5) comprises a first air cylinder (51) and a placing disc (52); the first air cylinder (51) is embedded in the middle of the top of the first installation frame body (2), the placing disc (52) is in transmission connection with the output end of the first air cylinder (51), and the top of the placing disc (52) is provided with a placing groove (53);

the shoe feeding mechanism (6) comprises a first mounting rod (61), a first sliding block (63), a mounting plate (64), a second mounting rod (65), a second sliding block (67), a first bearing seat (68), a first screw rod (69), a first motor (610), a support plate (611) and a first nut (612); the first mounting rod (61) is fixedly connected to the top of the second support (4), the second mounting rod (65) is fixedly connected to the top of the first support (1), a first sliding groove (62) is formed in the top of the first mounting rod (61), and a second sliding groove (66) is formed in the top of the second mounting rod (65); one end of the bottom of the mounting plate (64) is in sliding connection with the first sliding groove (62) through a first sliding block (63), and the other end of the bottom of the mounting plate (64) is in sliding connection with the second sliding groove (66) through a second sliding block (67); the first motor (610) is fixedly connected to the rear end of the second mounting rod (65) through a support plate (611), and the first bearing seat (68) is fixedly connected to the side part of the second mounting rod (65); one end of the first screw rod (69) is pivoted with the first bearing seat (68), and the other end of the first screw rod is rotationally connected with the output end of the first motor (610); the first nut (612) is fixedly connected to the bottom of the mounting plate (64), and the first nut (612) is in threaded fit with the first screw rod (69);

the shoe holding mechanism (7) comprises a third sliding block (72), a first rubber clamping block (73), a first support rod (74), a second bearing seat (75), a second nut (76), a second screw rod (77), a third screw rod (78), a fourth sliding block (79), a third nut (710), a second support rod (711), a second rubber clamping block (712) and a second motor (713); the mounting plate (64) is provided with a third sliding groove (71), the third sliding block (72) and the fourth sliding block (79) are both in sliding connection with the third sliding groove (71), the first support rod (74) is fixedly connected to the bottom of the third sliding block (72), the second support rod (711) is fixedly connected to the bottom of the fourth sliding block (79), the first rubber clamping block (73) is fixedly connected to the side portion of the first support rod (74), the second rubber clamping block (712) is fixedly connected to the side portion of the second support rod (711), the first rubber clamping block (73) corresponds to the second rubber clamping block (712), the second bearing seat (75) is fixedly connected to the left end of the top of the mounting plate (64), the second nut (76) is fixedly connected to the top of the third sliding block (72), and the third nut (710) is fixedly connected to the top of the fourth sliding block (79); one end of a second screw rod (77) is pivoted with the second bearing seat (75), and the other end of the second screw rod is fixedly connected with a third screw rod (78); the thread turning directions of the second screw rod (77) and the third screw rod (78) are opposite, the second screw rod (77) is in threaded connection with the second nut (76), the third screw rod (78) is in threaded connection with the third nut (710), the second motor (713) is fixedly connected to the right end of the top of the mounting plate (64), and the end part of the third screw rod (78) is in transmission connection with the output end of the second motor (713);

the glue spreading mechanism (8) comprises a third bearing seat (81), a first rotating shaft (82), a fourth bearing seat (83), a first transmission wheel (84), a first transmission belt (85), a third motor (86), a second transmission wheel (87), a second transmission belt (88), a third support plate (89), a fourth support plate (810), a first gluing roller (816), a gluing frame (813), a fifth bearing seat (814), a second rotating shaft (815), a first gluing roller (816) and a second gluing roller (817); the third support plate (89) is fixedly connected between the second supports (4), the fourth support plate (810) is fixedly connected between the first supports (1), a plurality of fourth bearing seats (83) are embedded on the right side of the third support plate (89) at equal intervals, and a plurality of third bearing seats (81) are embedded on the left side of the fourth support plate (810) at equal intervals; one end of the first rotating shaft (82) is pivoted with the third bearing seat (81), and the other end of the first rotating shaft is pivoted with the fourth bearing seat (83); a first gluing roller (816) is fixedly connected to the middle part of a first rotating shaft (82), the first gluing roller (816) is positioned right above a second mounting frame body (3), a third motor (86) is fixedly connected to the inner top part of the first mounting frame body (2), a second driving wheel (87) is in transmission connection with the output end of the third motor (86), a first driving wheel (84) is fixedly connected to the first rotating shaft (82), the first driving wheel (84) is in transmission connection with the second driving wheel (87) through a second driving belt (88), the first driving wheel (84) is in transmission connection with the first driving belt (85), a gluing frame (813) is detachably mounted in the second mounting frame body (3), a plurality of fifth bearing seats (814) are embedded in two sides of the gluing frame (813), the end part of the second rotating shaft (815) is pivoted with the fifth bearing seat (814), and the second gluing roller (817) is fixedly connected to the second rotating shaft (815), the outer surface of the second sizing roller (817) is in contact connection with the outer surface of the first sizing roller (816);

the shoe collecting mechanism (9) comprises a second heating lamp tube (91), a second heating plate (92) and a placing screen plate (93); place otter board (93) and install in third installation framework (13) with detachable mode, a plurality of second heating fluorescent tube (91) evenly distributed are in third installation framework (13) bottom, and second hot plate (92) rigid coupling is in third installation framework (13), and second hot plate (92) are located second heating fluorescent tube (91), place between otter board (93). .

2. The efficient shoe sole gluing machine according to claim 1, further comprising a first heating lamp (811), a first heating plate (812) and a support block (94); a plurality of first heating lamp tubes (811) are uniformly distributed at the inner bottom of the second mounting frame body (3), the first heating plate (812) is fixedly connected in the second mounting frame body (3), and the gluing frame (813) is placed at the top of the first heating plate (812).

3. The efficient shoe sole gluing machine according to claim 1, further comprising a first perforated plate (819), a second perforated plate (820) and bolts (821); the second installation framework (3) is equipped with access & exit (822) that supplies rubberizing frame (813) to come in and go out, and rubberizing frame (813) are placed in first hot plate (812) top, and rubberizing frame (813) both sides portion rigid coupling has a plurality of seconds to take screw hole board (820), and second installation framework (3) surface is equipped with takes screw hole board (819) with the second corresponding first of screw hole board (820), bolt (821) and first take screw hole board (819), second take screw hole board (820) spiro union cooperation.

4. The efficient shoe sole gluing machine according to claim 1, wherein the front side of the gluing frame (813) is further provided with a groove (823).

5. The efficient shoe sole gluing machine according to claim 1, wherein wedge-shaped blocks (818) are further fixedly connected to two inner sides of the gluing frame (813), the wedge-shaped blocks (818) are symmetrically arranged about a central axis of the width direction of the gluing frame (813), and the second gluing roller (817) is located between the wedge-shaped blocks (818).

6. The efficient sole gluing machine according to claim 1, further comprising a second cylinder (10), a lower press plate (11) and a mounting block (12); the second cylinder (10) is fixedly connected to the bottom of the mounting plate (64) through a mounting block (12), the second cylinder (10) is located right above the placing plate (52), and the lower pressing plate (11) is in transmission connection with the output end of the second cylinder (10).

7. The efficient shoe sole gluing machine according to claim 1, wherein a hard rubber pad (54) is further fixed in the placing groove (53).

8. The efficient shoe sole gluing machine according to claim 1, wherein a first through hole (101) is formed in the lower end of the side portion of the second mounting frame body (3), the first through hole (101) is located below the first heating plate (812), a second through hole (102) is formed in the lower end of the side portion of the third mounting frame body (13), the second through hole (102) is located below the second heating plate (92), and the first through hole (101) and the second through hole (102) are communicated with each other.

9. The efficient shoe sole gluing machine according to claim 1, wherein a supporting block (94) is fixedly connected to two inner sides of the third mounting frame body (13), the placing screen plate (93) is placed on the top of the supporting block (94), and the distance between the top of the placing screen plate (93) and the top of the first gluing roller (816) is fifteen centimeters to twenty centimeters.

10. The efficient shoe sole gluing machine according to claim 1, wherein the cross-section of the first rubber clamping block (73) side portion and the second rubber clamping block side portion are S-shaped.

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