CN115349693B - Dampness-dispelling antibacterial foot-strengthening balance insole and production process thereof - Google Patents

Abstract

The invention discloses a damp-clearing antibacterial foot-strengthening balance insole and a production process thereof, and relates to the technical field of insoles, wherein the damp-clearing antibacterial foot-strengthening balance insole comprises an outer skin layer, a sponge inner layer and a shaping sheet which are sequentially arranged from top to bottom, a shock absorption cushion and a massage cushion are arranged between the sponge inner layer and the shaping sheet, a first positioning groove and a second positioning groove are arranged at the top of the shaping sheet, and the production process of the damp-clearing antibacterial foot-strengthening balance insole is realized through production equipment of the damp-clearing antibacterial foot-strengthening balance insole; the production equipment of the damp-eliminating antibacterial foot-strengthening balance insole comprises a bottom plate, wherein guide vertical rods are fixedly arranged at four corners of the top of the bottom plate. The invention can reduce the assembly difficulty of the cushioning pad and the massage pad by forming the positioning groove, avoid affecting the accuracy of the protruding position of the top of the insole, and simultaneously can avoid the surface of the massage pad from being stained with glue in the assembly process, thereby enabling the massage pad to play a better role subsequently.

Description

Dampness-dispelling antibacterial foot-strengthening balance insole and production process thereof

Technical Field

The invention relates to the technical field of insoles, in particular to a damp-clearing, antibacterial and foot-strengthening balance insole and a production process thereof.

Background

The insole is used for being placed in shoes, can play roles of resisting bacteria, deodorizing, heightening and the like, has a flat appearance, has poor fit with feet of a human body, and cannot form effective support on the arch of the foot when being worn.

The invention patent of the grant bulletin number CN 110934380B discloses a damp-clearing antibacterial foot-strengthening balance insole and a production process thereof, and relates to the field of insoles, wherein the balance insole comprises a shoe pad layer, the shoe pad layer is divided into a half sole area, an arch area and a heel area, shaping sheets are arranged at the arch area and the heel area, the shaping sheets are arc-shaped, and two opposite sides of the arch part in the middle are turned upwards; the insole layer is flat at the half sole area and is arc-shaped under the action of the shaping sheet at the arch area and the heel area, the highest position of the insole layer is positioned at the juncture of the arch area and the heel area, and the two sides of the insole layer arch to form a supporting part; the insole layer comprises an outer skin layer and a sponge inner layer. The invention has the functions of balancing plantar pressure, ventilating, radiating, eliminating dampness, expelling cold, resisting and inhibiting bacteria, harmonizing qi and blood and the like, and has good foot-care effect.

When the damp-eliminating antibacterial foot-care balance insole is in actual production, the outer skin layer and the sponge inner layer are required to be bonded together to form the insole layer, then punching is carried out to form arch heel ventilation holes, arch sweat absorbing holes, massage ventilation holes, half sole sweat absorbing holes and half sole ventilation holes, then the cushioning pad and the massage pad are adhered to the insole layer, and finally the insole layer and the shaping sheet are adhered tightly and bonded together to obtain the balance insole.

In the process, the assembly of the cushioning pad and the massage pad is adhered to the shoe pad layer through the glue, wherein the outer sleeve of the massage pad is made of cotton, so that after the adhesion of the massage pad is finished, the glue stained on the surface of the massage pad can seal the surface layer of the cotton outer sleeve, and further the inner filler in the subsequent outer sleeve cannot act through the outer sleeve area stained with the glue, and the actual use effect of the inner filler is reduced.

Meanwhile, when the massage cushion is assembled, as the bottom of the insole layer is not provided with the referent marks, the installation position of the massage cushion can only be judged by technicians according to past experience, so that after the insole is assembled, the protruding position of the top of the insole is easy to deviate due to the inaccuracy of the installation position of the massage cushion, and the actual massage effect of the protruding position is affected.

Therefore, it is necessary to solve the above problems by inventing a damp-clearing, antibacterial, foot-strengthening and balancing insole and a production process thereof.

Disclosure of Invention

The invention aims to provide a damp-clearing, antibacterial and foot-strengthening balance insole and a production process thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the production process of the damp-eliminating, antibacterial and foot-strengthening balance insole comprises an outer surface layer, a sponge inner layer and a shaping sheet which are sequentially arranged from top to bottom, wherein a cushioning pad and a massage pad are arranged between the sponge inner layer and the shaping sheet, a first positioning groove and a second positioning groove are arranged at the top of the shaping sheet, and the production process of the damp-eliminating, antibacterial and foot-strengthening balance insole is realized through production equipment of the damp-eliminating, antibacterial and foot-strengthening balance insole;

the production equipment of the anti-bacterial foot-care balance insole comprises a bottom plate, guide vertical rods are fixedly arranged at four corners of the top of the bottom plate, an inverted U-shaped top plate is fixedly arranged at the top of each guide vertical rod, a double driving mechanism is arranged at the top of the bottom plate, an adsorption exhaust mechanism is commonly arranged at the top of the bottom plate and the top of each inverted U-shaped top plate, a positioning hot-pressing mechanism is commonly arranged at the outer sides of the four guide vertical rods, and a bearing mechanism is arranged at the inner side of each inverted U-shaped top plate;

the double driving mechanism comprises a screw, a driving motor, a driving gear, a threaded sleeve and a first spring;

the screw rod penetrates through the top of the bottom plate and is rotationally connected with the bottom plate through a bearing, the driving motor is fixedly arranged on the top of the bottom plate, two driving gears are arranged, one driving gear is fixedly sleeved on the outer side of the screw rod, the other driving gear is in transmission connection with the driving motor, the two driving gears are meshed, the threaded sleeve is sleeved on the outer side of the screw rod and is in threaded connection with the screw rod, and the first spring is fixedly arranged on the top end of the screw rod;

the adsorption exhaust mechanism comprises an air heater, an air outlet shunt tube, an output tube, an air inlet shunt tube, an air inlet shell, a sealing plate, a lifting plate, a transverse plate and a second spring;

the air heater is fixedly arranged at the top of the bottom plate, the air outlet shunt tube is connected with the air heater output end, the output tube penetrates through the screw rod and is arranged on the inner side of the screw rod in a sliding mode, one output end of the air outlet shunt tube is fixedly connected with the output tube, the air inlet shunt tube is connected with the air heater input end, one input end of the air inlet shunt tube is fixedly connected with the air inlet shell, valves are fixedly arranged at the other input end of the air outlet shunt tube and the other output end of the air inlet shunt tube, the air inlet shell is fixedly arranged at the top of the inverted U-shaped top plate, the sealing plate is fixedly arranged inside the air inlet shell, the lifting plate penetrates through the top of the air inlet shell and extends to the inner side of the inverted U-shaped top plate, air holes are formed in the sealing plate and the side face of the lifting plate in a penetrating mode, the transverse plate is fixedly arranged at the top of the lifting plate, and the second springs are respectively fixedly connected to the two sides of the bottom of the transverse plate and are fixedly connected with the air inlet shell;

the positioning hot-pressing mechanism comprises a lifting seat, a positioning seat, a third spring, a hot pressing block, a heat exchange cavity, a first pushing block, a second pushing block, a fourth spring and a third pushing block;

the lifting seat is sleeved on the outer sides of the four guide vertical rods in a sliding manner and is fixedly connected with the threaded sleeve, the positioning seat is sleeved on the top of the lifting seat in a sliding manner, the four third springs are arranged on the four corners of the bottom of the positioning seat respectively and are fixedly connected with the lifting seat respectively, the two hot pressing blocks and the heat exchange cavity are respectively arranged on the outer sides of the top of the positioning seat in a sliding manner, the two hot pressing blocks are respectively arranged inside the two hot pressing blocks in a sliding manner, the heat exchange cavity is communicated with the inner cavity of the positioning seat, the first pushing block is arranged inside the positioning seat in a sliding manner along the vertical direction and is fixedly connected with the two hot pressing blocks, the second pushing block is arranged inside the positioning seat in a sliding manner along the horizontal direction, the fourth springs are fixedly connected to the left side of the second pushing block, the third pushing block is fixedly sleeved on the outer sides of the top of the output pipe, and the top of the first spring is connected with the third pushing block through a bearing.

Preferably, the bearing mechanism comprises a rotating shaft, a bearing seat, a torsion spring, a bearing groove, an avoidance groove, an adsorption cavity and an adsorption channel.

Preferably, the rotation axis runs through and sets up in the roof inboard of falling U-shaped, and rotates with the rotation axis through the bearing and be connected, the fixed handle that is provided with in rotation axis front end, it sets up in the rotation axis outside to bear the seat fixed sleeve, the torsional spring is provided with two, two the torsional spring cup joints respectively and sets up in rotation axis outside both ends, torsional spring one end and roof inner wall fixed connection and the other end and bear seat fixed connection of falling U-shaped, bear the groove and set up in bearing the seat top, it is provided with two to dodge the groove, two dodge the groove all set up in bearing the inslot portion, the absorption chamber is set up in bearing the inside, and is connected with another input of air inlet shunt tubes, the absorption passageway is provided with a plurality of, a plurality of absorption passageways are set up on bearing the groove inner wall, and all communicate with the absorption chamber.

Preferably, the production process specifically comprises the following steps:

s1, placing an outer skin layer in a bearing groove matched with the outer skin layer, then coating glue on the surface of the outer skin layer, and not coating the glue at the rising positions of two avoidance grooves, and then covering the top of the outer skin layer with a sponge inner layer;

s2, starting the air heater and the driving motor, selecting the rotating shaft through the handle, and sucking air through the air inlet shunt pipe after the air heater is started, wherein the air inlet shunt pipe is connected with the adsorption cavity, so that the air inlet shunt pipe sucks air through the air inlet shell and outputs the air through an output end, which is not connected with the output pipe, of the air outlet shunt pipe;

s3, when the rotating shaft rotates, the bearing seat is driven to rotate clockwise by one hundred eighty degrees, the limit of the lifting plate is gradually relieved by the bearing seat in the rotating process, at the moment, the lifting plate is gradually lowered by the second spring through the transverse plate, the air holes on the lifting plate and the air holes on the sealing plate are not collinear after the lifting plate is lowered, the inside of the air inlet shell is sealed, at the moment, air cannot enter the air inlet split pipe through the air inlet shell, the air inlet split pipe sucks air through the input end connected with the adsorption cavity, at the moment, the inside of the adsorption cavity is in a negative pressure state, and the outer surface layer is adsorbed in the bearing groove;

s4, starting a driving motor to drive a screw rod to rotate through a driving gear, driving a threaded sleeve to continuously ascend when the screw rod rotates, and pushing a lifting seat when the threaded sleeve ascends, so that the lifting seat drives a positioning seat to ascend, in addition, in the ascending process of the threaded sleeve, the screw rod relatively descends at the inner side of the threaded sleeve, and a first spring in a compressed state gradually resets;

s5, when the rising distance of the lifting seat reaches a first threshold value, the first spring is completely reset, and then the first spring drives the third pushing block to descend along with the continuous rising of the lifting seat, the third pushing block starts to push the second pushing block when descending and simultaneously drives the output pipe to synchronously descend, at the moment, the top end of the output pipe is not contacted with the inner wall of the positioning seat any more, under the limitation of a valve on the air outlet shunt pipe, hot air enters the inside of the positioning seat through the output pipe, then enters the inside of the heat exchange chamber to preheat the heat exchange chamber, and excessive heat air is discharged through the positioning seat and holes on the lifting seat;

s6, when the rising distance of the lifting seat reaches a second threshold value, the positioning seat enters the bearing groove and compresses the outer surface layer and the sponge inner layer in the bearing groove, at the moment, the positioning seat cannot continuously rise under the drive of the lifting seat, when the subsequent lifting seat continuously rises, the positioning seat compresses the third spring, and simultaneously, the second pushing block moves left and pushes the first pushing block under the pushing of the third pushing block, so that two preheated hot-pressing blocks extend out of the positioning seat and hot-press the outer surface layer and the sponge inner layer, and positioning grooves are formed on the surfaces of the outer surface layer and the sponge inner layer;

s7, when the rising distance of the lifting seat reaches a third threshold value, the driving motor drives the screw rod to reversely rotate, so that the double driving mechanism and the positioning hot pressing mechanism are reset, then the bearing seat is synchronously reset under the driving of the torsion spring, and at the moment, the outer surface layer and the inner sponge layer at the inner side of the bearing groove are taken down;

s8, coating glue on the surface of the shaping sheet, then respectively placing the cushioning pad and the massage pad into the first positioning groove and the second positioning groove, then covering the sponge inner layer on the top of the shaping sheet, enabling the cushioning pad and the massage pad to be respectively aligned with the two positioning grooves on the sponge inner layer in the covering process, and when the shaping sheet is to be attached to the sponge inner layer, respectively entering the cushioning pad and the massage pad into the two positioning grooves, and after the glue is solidified, obtaining the damp-eliminating, antibacterial and foot-building balance insole.

The invention has the technical effects and advantages that:

the invention is provided with the dual driving mechanism, the adsorption and exhaust mechanism, the positioning hot-pressing mechanism and the bearing mechanism, so that the bearing mechanism is used for bearing and overturning the bonded outer skin layer and the sponge inner layer, the bearing mechanism is used for triggering the adsorption and exhaust mechanism in the overturning process, the adsorption and exhaust mechanism is matched with the bearing mechanism to adsorb the overturned outer skin layer and the sponge inner layer, then the dual driving mechanism drives the positioning hot-pressing mechanism, and further the positioning hot-pressing mechanism is lifted, meanwhile, in the lifting process of the positioning hot-pressing mechanism, the adsorption and exhaust mechanism preheats the positioning hot-pressing mechanism, the positioning hot-pressing mechanism is used for hot-pressing the outer skin layer and the sponge inner layer after the outer skin layer and the sponge inner layer are positioned, and then positioning grooves are formed at the bottoms of the outer skin layer and the sponge inner layer, and then after the cushion pad and the massage pad are bonded at the top of the shaping sheet, so that the bonding of the shaping sheet and the sponge inner layer is finished.

Drawings

Fig. 1 is a schematic view of the overall front cross-sectional structure of the present invention.

Fig. 2 is a schematic diagram of a front cross-sectional structure of a dual driving mechanism and an adsorption exhaust mechanism of the present invention.

Fig. 3 is a schematic diagram of a front cross-sectional structure of the dual driving mechanism and the positioning hot press mechanism of the present invention.

Fig. 4 is a schematic diagram of a front cross-sectional structure of the adsorption exhaust mechanism and the bearing mechanism of the present invention.

In the figure: 1. a bottom plate; 2. a guide vertical rod; 3. an inverted U-shaped top plate; 4. a dual driving mechanism; 41. a screw; 42. a driving motor; 43. a drive gear; 44. a threaded sleeve; 45. a first spring; 5. an adsorption exhaust mechanism; 51. an air heater; 52. an air outlet shunt tube; 53. an output pipe; 54. an air inlet shunt tube; 55. an air inlet shell; 56. a closing plate; 57. a lifting plate; 58. a cross plate; 59. a second spring; 6. positioning a hot pressing mechanism; 61. a lifting seat; 62. a positioning seat; 63. a third spring; 64. hot briquetting; 65. a heat exchange chamber; 66. a first push block; 67. a second push block; 68. a fourth spring; 69. a third push block; 7. a carrying mechanism; 71. a rotation shaft; 72. a bearing seat; 73. a torsion spring; 74. a carrying groove; 75. an avoidance groove; 76. an adsorption chamber; 77. adsorption channels.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The invention provides a production process of a damp-clearing, antibacterial and foot-strengthening balance insole shown in figures 1-4, which comprises an outer skin layer, a sponge inner layer and a shaping sheet which are sequentially arranged from top to bottom, wherein a damping cushion and a massage cushion are arranged between the sponge inner layer and the shaping sheet, a positioning groove I and a positioning groove II are arranged at the top of the shaping sheet, and the production process of the damp-clearing, antibacterial and foot-strengthening balance insole is realized through production equipment of the damp-clearing, antibacterial and foot-strengthening balance insole;

the production equipment of the balanced shoe-pad of antibiotic healthy foot dispels dampness includes bottom plate 1, bottom plate 1 top four corners is all fixed and is provided with direction montant 2, four direction montant 2 top is fixed jointly and is provided with the roof 3 of falling U-shaped, bottom plate 1 top is provided with dual actuating mechanism 4, bottom plate 1 top is provided with absorption exhaust mechanism 5 jointly with the roof 3 top of falling U-shaped, four the direction montant 2 outside is provided with location hot pressing mechanism 6 jointly, the roof 3 inboard of falling U-shaped is provided with bears mechanism 7.

As shown in fig. 2 and 3, the dual driving mechanism 4 includes a screw 41, a driving motor 42, a driving gear 43, a threaded sleeve 44 and a first spring 45, where the screw 41 is disposed at the top of the bottom plate 1 in a penetrating manner, and is rotationally connected with the bottom plate 1 through a bearing, the driving motor 42 is fixedly disposed at the top of the bottom plate 1, two driving gears 43 are disposed, one driving gear 43 is fixedly sleeved at the outer side of the screw 41, the other driving gear 43 is in transmission connection with the driving motor 42, the two driving gears 43 are meshed, the threaded sleeve 44 is sleeved at the outer side of the screw 41 and is in threaded connection with the screw 41, and the first spring 45 is fixedly disposed at the top end of the screw 41.

As shown in fig. 2 and fig. 4, the adsorption exhaust mechanism 5 includes a hot air blower 51, an air outlet shunt tube 52, an output tube 53, an air inlet shunt tube 54, an air inlet housing 55, a closing plate 56, a lifting plate 57, a cross plate 58 and a second spring 59, wherein, the hot air blower 51 is fixedly arranged at the top of the bottom plate 1, the air outlet shunt tube 52 is connected with the output end of the hot air blower 51, the output tube 53 penetrates through the screw 41 and is arranged at the inner side of the screw 41 in a sliding manner, one output end of the air outlet shunt tube 52 is fixedly connected with the output tube 53, the air inlet shunt tube 54 is connected with the input end of the hot air blower 51, one input end of the air inlet shunt tube 54 is fixedly connected with the air inlet housing 55, the other input end of the air outlet shunt tube 52 is fixedly arranged at the other output end of the air inlet shunt tube 54, the air inlet housing 55 is fixedly arranged at the top of the inverted U-shaped top plate 3, the closing plate 56 is fixedly arranged in the air inlet housing 55, the lifting plate 57 is slidably arranged at the top of the air inlet housing 55 and extends to the inner side of the screw 41, the two sides of the inverted U-shaped top plate 57 are fixedly arranged at the two sides of the air inlet housing 55, the two sides of the air inlet housing is fixedly connected with the two cross plate 58, and the two sides of the air inlet housing is fixedly arranged at the two sides of the air inlet housing 57, and the two cross plate is fixedly connected with the air inlet housing 59.

By arranging the above structure, after the air heater 51 sucks air through the air inlet shunt tube 54 and heats the air, the air is output through the air outlet shunt tube 52, and under the condition that the input end of the air inlet shunt tube 54 without the valve and the output end of the air outlet shunt tube 52 without the valve are not limited due to the limitation of two valves, the air enters from the input end of the air inlet shunt tube 54 without the valve and is output from the output end of the air outlet shunt tube 52 without the valve.

As shown in fig. 3, the positioning hot pressing mechanism 6 includes a lifting seat 61, a positioning seat 62, a third spring 63, a hot pressing block 64, a heat exchanging cavity 65, a first pushing block 66, a second pushing block 67, a fourth spring 68 and a third pushing block 69, wherein the lifting seat 61 is slidably sleeved on the outer sides of four guide vertical rods 2 and fixedly connected with the threaded sleeve 44, the positioning seat 62 is slidably nested and arranged at the top of the lifting seat 61, the third spring 63 is provided with four, the four third springs 63 are fixedly arranged at four corners at the bottom of the positioning seat 62 and are fixedly connected with the lifting seat 61, the hot pressing block 64 and the heat exchanging cavity 65 are respectively provided with two hot pressing blocks 64, the two hot pressing blocks 64 are respectively slidably penetrated through the top of the positioning seat 62, the two heat exchanging cavities 65 are respectively arranged inside the two hot pressing blocks 64, the heat exchanging cavity 65 and the inner cavity 62 are communicated, the first pushing block 66 is slidably arranged inside the positioning seat 62 along the vertical direction and fixedly connected with the two hot pressing blocks 64, the second pushing block 63 is horizontally arranged on the top of the lifting seat 62, the top of the third pushing block 67 is fixedly connected with the left pushing block 69, and the top of the third pushing block is fixedly arranged at the top of the left side of the third pushing block 69, and the top of the hot pressing block is fixedly connected with the top of the third pushing block 67.

Through setting up above-mentioned structure to drive positioning seat 62 continuously when lifting seat 61 rises, simultaneously in lifting seat 61 rise in-process constantly remove the packing to first spring 45, when lifting seat 61 rise distance reached first threshold value, first spring 45 fully resets, follow-up lifting seat 61 continues to rise, first spring 45 drives third ejector pad 69 and descends, the third ejector pad 69 begins to promote second ejector pad 67 when descending, simultaneously drive output tube 53 and descend in step, the output tube 53 top no longer contacts with positioning seat 62 inner wall at this moment, under the restriction of valve on air-out shunt tubes 52, hot air enters into positioning seat 62 inside through output tube 53, then heat exchange chamber 65 preheats, the many waste heat air then discharges through the hole on positioning seat 62 and lifting seat 61, after positioning seat 62 can't drive down under lifting seat 61 and rise, follow-up lifting seat 61 continues to rise, positioning seat 62 compresses third spring 63, simultaneously promote third ejector pad 69 down, and make two layers of sponge layer and the inside the outer surface layer of sponge layer are formed by the second ejector pad 67, and then the inside the surface layer is stretched out by the sponge layer is preheated in the surface layer of the sponge layer.

As shown in fig. 4, the bearing mechanism 7 includes a rotation shaft 71, a bearing seat 72, a torsion spring 73, a bearing groove 74, an avoidance groove 75, an adsorption cavity 76 and an adsorption channel 77, where the rotation shaft 71 runs through the inside of the inverted U-shaped top plate 3 and is rotationally connected with the rotation shaft 71 through a bearing, a handle is fixedly disposed at the front end of the rotation shaft 71, the bearing seat 72 is fixedly sleeved and arranged at the outside of the rotation shaft 71, the torsion spring 73 is provided with two torsion springs 73 respectively sleeved and arranged at two ends of the outside of the rotation shaft 71, one end of the torsion spring 73 is fixedly connected with the inner wall of the inverted U-shaped top plate 3 and the other end is fixedly connected with the bearing seat 72, the bearing groove 74 is formed at the top of the bearing seat 72, two avoidance grooves 75 are formed inside the bearing groove 74, the adsorption cavity 76 is formed inside the bearing seat 72 and is connected with the other input end of the air inlet split-pipe 54, and the adsorption channel 77 is provided with a plurality of adsorption channels 77 formed on the inner wall of the bearing groove 74 and is communicated with the adsorption cavity 76.

Through setting up above-mentioned structure to utilize to bear groove 74 to bear outer skin layer and sponge inlayer, utilize to bear seat 72 simultaneously and drive outer skin layer and sponge inlayer upset, bear seat 72 upset in-process in addition can make the absorption chamber 76 inside be in the negative pressure state, and then adsorb outer skin layer and sponge inlayer in the groove 74 is born to the inside.

Example 2

The production process of the damp-clearing antibacterial foot-strengthening balance insole specifically comprises the following steps of:

s1, placing an outer skin layer in a bearing groove 74 matched with the outer skin layer, then coating glue on the surface of the outer skin layer, not coating the glue at the rising positions of two avoidance grooves 75, and then covering the top of the outer skin layer with a sponge inner layer;

s2, starting the air heater 51 and the driving motor 42, and simultaneously selecting the rotating shaft 71 through a handle, wherein air is sucked through the air inlet shunt tube 54 after the air heater 51 is started, and the air inlet shunt tube 54 sucks air through the air inlet shell 55 and outputs the air through an output end of the air outlet shunt tube 52 which is not connected with the output tube 53 because a valve is arranged at an input end of the air inlet shunt tube 54 connected with the adsorption cavity 76;

s3, when the rotating shaft 71 rotates, the bearing seat 72 is driven to rotate clockwise by one hundred eighty degrees, the limit on the lifting plate 57 is gradually released by the bearing seat 72 in the rotating process, at the moment, the lifting plate 57 is pulled by the second spring 59 through the transverse plate 58, the lifting plate 57 is further gradually lowered, air holes on the lifting plate 57 are not collinear with air holes on the sealing plate 56 after the lifting plate 57 is lowered, the inside of the air inlet shell 55 is sealed, at the moment, air cannot enter the air inlet shunt tube 54 through the air inlet shell 55, the air inlet shunt tube 54 sucks air through an input end connected with the adsorption cavity 76, at the moment, the inside of the adsorption cavity 76 is in a negative pressure state, and an outer skin layer is adsorbed inside the bearing groove 74;

s4, the driving motor 42 is started to drive the screw 41 to rotate through the driving gear 43, the threaded sleeve 44 is driven to continuously ascend when the screw 41 rotates, the lifting seat 61 is pushed when the threaded sleeve 44 ascends, the lifting seat 61 drives the positioning seat 62 to ascend, in addition, in the ascending process of the threaded sleeve 44, the screw 41 relatively descends at the inner side of the threaded sleeve 44, and the first spring 45 in a compressed state gradually resets;

s5, when the rising distance of the lifting seat 61 reaches a first threshold value, the first spring 45 is completely reset, and then the first spring 45 drives the third push block 69 to descend along with the continuous rising of the lifting seat 61, the third push block 69 starts to push the second push block 67 when descending, and simultaneously drives the output pipe 53 to synchronously descend, at the moment, the top end of the output pipe 53 is not contacted with the inner wall of the positioning seat 62 any more, under the limitation of a valve on the air outlet shunt pipe 52, hot air enters the positioning seat 62 through the output pipe 53, then enters the heat exchange chamber 65 to preheat the heat exchange chamber 65, and excessive heat air is discharged through the positioning seat 62 and holes on the lifting seat 61;

s6, when the rising distance of the lifting seat 61 reaches a second threshold value, the positioning seat 62 enters the bearing groove 74 and compresses the outer surface layer and the inner sponge layer in the bearing groove 74, at the moment, the positioning seat 62 cannot continuously rise under the drive of the lifting seat 61, when the subsequent lifting seat 61 continuously rises, the positioning seat 62 compresses the third spring 63, and simultaneously, under the pushing of the third pushing block 69, the second pushing block 67 moves leftwards and pushes the first pushing block 66, so that the two preheated hot pressing blocks 64 extend out of the positioning seat 62 and thermally press the outer surface layer and the inner sponge layer, and further form positioning grooves on the surfaces of the outer surface layer and the inner sponge layer;

s7, when the rising distance of the lifting seat 61 reaches a third threshold value, the driving motor 42 drives the screw 41 to reversely rotate, so that the double driving mechanism 4 and the positioning hot pressing mechanism 6 are reset, and then the bearing seat 72 is synchronously reset under the driving of the torsion spring 73, and at the moment, the outer surface layer and the sponge inner layer at the inner side of the bearing groove 74 are taken down;

s8, coating glue on the surface of the shaping sheet, then respectively placing the cushioning pad and the massage pad into the first positioning groove and the second positioning groove, then covering the sponge inner layer on the top of the shaping sheet, enabling the cushioning pad and the massage pad to be respectively aligned with the two positioning grooves on the sponge inner layer in the covering process, and when the shaping sheet is to be attached to the sponge inner layer, respectively entering the cushioning pad and the massage pad into the two positioning grooves, and after the glue is solidified, obtaining the damp-eliminating, antibacterial and foot-building balance insole.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (4)

1. The production process of the damp-eliminating antibacterial foot-strengthening balance insole comprises an outer surface layer, a sponge inner layer and a shaping sheet which are sequentially arranged from top to bottom, wherein a shock-absorbing cushion and a massage cushion are arranged between the sponge inner layer and the shaping sheet, and a positioning groove I and a positioning groove II are arranged at the top of the shaping sheet, and the production process is characterized in that: the production process of the damp-clearing antibacterial foot-strengthening balance insole is realized by production equipment of the damp-clearing antibacterial foot-strengthening balance insole;

the production equipment of the anti-bacterial foot-care balance insole comprises a bottom plate (1), guide vertical rods (2) are fixedly arranged at four corners of the top of the bottom plate (1), an inverted U-shaped top plate (3) is fixedly arranged at the top of the guide vertical rods (2), a double driving mechanism (4) is arranged at the top of the bottom plate (1), an adsorption exhaust mechanism (5) is arranged at the top of the bottom plate (1) and the top of the inverted U-shaped top plate (3), a positioning hot-pressing mechanism (6) is arranged at the outer sides of the guide vertical rods (2), and a bearing mechanism (7) is arranged at the inner side of the inverted U-shaped top plate (3);

the double driving mechanism (4) comprises a screw (41), a driving motor (42), a driving gear (43), a threaded sleeve (44) and a first spring (45);

the screw rod (41) penetrates through the top of the bottom plate (1) and is rotationally connected with the bottom plate (1) through a bearing, the driving motor (42) is fixedly arranged at the top of the bottom plate (1), two driving gears (43) are arranged, one driving gear (43) is fixedly sleeved on the outer side of the screw rod (41), the other driving gear (43) is in transmission connection with the driving motor (42), the two driving gears (43) are meshed, the threaded sleeve (44) is sleeved on the outer side of the screw rod (41) and is in threaded connection with the screw rod (41), and the first spring (45) is fixedly arranged on the top end of the screw rod (41);

the adsorption exhaust mechanism (5) comprises a hot air blower (51), an air outlet shunt tube (52), an output tube (53), an air inlet shunt tube (54), an air inlet shell (55), a closing plate (56), a lifting plate (57), a transverse plate (58) and a second spring (59);

the air heater (51) is fixedly arranged at the top of the bottom plate (1), the air outlet shunt tube (52) is connected with the output end of the air heater (51), the output tube (53) penetrates through the screw (41) and is arranged on the inner side of the screw (41) in a sliding mode, one output end of the air outlet shunt tube (52) is fixedly connected with the output tube (53), the air inlet shunt tube (54) is connected with the input end of the air heater (51), one input end of the air inlet shunt tube (54) is fixedly connected with the air inlet shell (55), a valve is fixedly arranged at the other input end of the air outlet shunt tube (52) and the other output end of the air inlet shunt tube (54), the air inlet shell (55) is fixedly arranged at the top of the inverted U-shaped top plate (3), the sealing plate (56) is fixedly arranged inside the air inlet shell (55), the lifting plate (57) is arranged on the top of the air inlet shell (55) in a sliding mode in a penetrating mode and extends to the inner side of the inverted U-shaped top plate (3), the sealing plate (56) is fixedly connected with the side face of the lifting plate (57), the two air holes (58) are fixedly arranged on the two sides of the two air inlet plates (59), and the two air inlet plates (59) are fixedly connected with the two air inlet plates (59;

the positioning hot-pressing mechanism (6) comprises a lifting seat (61), a positioning seat (62), a third spring (63), a hot-pressing block (64), a heat exchange cavity (65), a first pushing block (66), a second pushing block (67), a fourth spring (68) and a third pushing block (69);

the lifting seat (61) is sleeved on the outer side of the four guide vertical rods (2) in a sliding mode and is fixedly connected with the threaded sleeve (44), the positioning seat (62) is arranged at the top of the lifting seat (61) in a sliding nested mode, the third springs (63) are four, the third springs (63) are fixedly arranged at four corners at the bottom of the positioning seat (62) respectively and are fixedly connected with the lifting seat (61), the hot pressing blocks (64) and the heat exchange cavity (65) are both arranged in two in a sliding mode, the hot pressing blocks (64) are respectively arranged at the top of the positioning seat (62) in a penetrating mode, the two heat exchange cavities (65) are respectively arranged inside the two hot pressing blocks (64), the heat exchange cavities (65) are communicated with the inner cavities of the positioning seat (62), the first pushing blocks (66) are arranged inside the positioning seat (62) in a sliding mode along the vertical direction, the second pushing blocks (67) are fixedly connected with the two hot pressing blocks (64) respectively, the second pushing blocks (67) are arranged inside the positioning seat (62) in a sliding mode along the horizontal direction, and the fourth spring (68) is fixedly connected with the top end of the third pushing blocks (69) in a sleeved mode through the left pushing block (69) and the top end of the third pushing block (69) is fixedly connected with the top of the first pushing block (45).

2. The process for producing the damp-clearing, antibacterial and foot-strengthening balance insole according to claim 1, which is characterized in that: the bearing mechanism (7) comprises a rotating shaft (71), a bearing seat (72), a torsion spring (73), a bearing groove (74), an avoiding groove (75), an adsorption cavity (76) and an adsorption channel (77).

3. The process for producing the damp-clearing, antibacterial and foot-strengthening balance insole according to claim 2, which is characterized in that: the utility model discloses a rotary device, including rotary shaft (71), bearing seat (72), rotary shaft (71) run through and set up in the inboard of falling U-shaped roof (3), and rotate with rotary shaft (71) through the bearing and be connected, rotary shaft (71) front end is fixedly provided with the handle, bearing seat (72) are fixed to be cup jointed and are set up in rotary shaft (71) outside, torsional spring (73) are provided with two, two torsional spring (73) cup joint respectively and set up in rotary shaft (71) outside both ends, torsional spring (73) one end and falling U-shaped roof (3) inner wall fixed connection and other end and bearing seat (72) fixed connection, bearing groove (74) are seted up in bearing seat (72) top, dodge groove (75) are provided with two dodge groove (75) all and are seted up in bearing groove (74) inside, absorption chamber (76) are seted up in bearing seat (72) inside, and are connected with the other input of air inlet shunt tubes (54), absorption channel (77) are provided with a plurality of absorption channel (77) are seted up on bearing groove (74) inner wall, and all communicate with absorption chamber (76).

4. The process for producing the damp-clearing, antibacterial and foot-strengthening balance insole according to claim 3, which is characterized by comprising the following steps:

s1, placing an outer skin layer in a bearing groove (74) matched with the outer skin layer, then coating glue on the surface of the outer skin layer, wherein glue coating is not performed at rising positions of two avoidance grooves (75), and then covering the top of the outer skin layer with a sponge inner layer;

s2, starting the air heater (51) and the driving motor (42), selecting a rotating shaft (71) through a handle, and sucking air through an air inlet shunt tube (54) after the air heater (51) is started, wherein a valve is arranged at an input end of the air inlet shunt tube (54) connected with the adsorption cavity (76), so that the air inlet shunt tube (54) sucks air through an air inlet shell (55) and outputs the air through an output end of the air outlet shunt tube (52) which is not connected with the output tube (53);

s3, when the rotating shaft (71) rotates, the bearing seat (72) is driven to rotate clockwise by one hundred eighty degrees, the limit on the lifting plate (57) is gradually released by the bearing seat (72) in the rotating process, at the moment, the lifting plate (57) is pulled by the second spring (59) through the transverse plate (58), the lifting plate (57) is further gradually lowered, air holes on the lifting plate (57) are not collinear with air holes on the sealing plate (56) after the lifting plate (57) is lowered, the inside of the air inlet shell (55) is sealed, at the moment, air cannot enter the air inlet shunt tube (54) through the air inlet shell (55), the air inlet shunt tube (54) is sucked through an input end connected with the adsorption cavity (76), at the moment, the inside of the adsorption cavity (76) is in a negative pressure state, and an outer skin layer is adsorbed inside the bearing groove (74);

s4, a driving motor (42) is started to drive a screw rod (41) to rotate through a driving gear (43), a threaded sleeve (44) is driven to continuously ascend when the screw rod (41) rotates, and the lifting seat (61) is pushed when the threaded sleeve (44) ascends, so that the lifting seat (61) drives a positioning seat (62) to ascend, in addition, in the ascending process of the threaded sleeve (44), the screw rod (41) relatively descends at the inner side of the threaded sleeve (44), and a first spring (45) in a compressed state gradually resets;

s5, when the rising distance of the lifting seat (61) reaches a first threshold value, the first spring (45) is completely reset, and then the first spring (45) drives the third push block (69) to descend along with the continuous rising of the lifting seat (61), the third push block (69) starts to push the second push block (67) when descending, and simultaneously drives the output pipe (53) to synchronously descend, at the moment, the top end of the output pipe (53) is not contacted with the inner wall of the positioning seat (62) any more, under the limit of a valve on the air outlet shunt pipe (52), hot air enters the positioning seat (62) through the output pipe (53) and then enters the heat exchange chamber (65) to preheat the heat exchange chamber (65), and excessive heat air is discharged through the positioning seat (62) and a hole on the lifting seat (61);

s6, when the rising distance of the lifting seat (61) reaches a second threshold value, the positioning seat (62) enters the bearing groove (74) and compresses the outer surface layer and the sponge inner layer in the bearing groove (74), at the moment, the positioning seat (62) cannot continuously rise under the drive of the lifting seat (61), when the subsequent lifting seat (61) continuously rises, the positioning seat (62) compresses the third spring (63), and simultaneously, under the pushing of the third pushing block (69), the second pushing block (67) moves left and pushes the first pushing block (66), so that two preheated hot pressing blocks (64) extend out of the inside of the positioning seat (62) and carry out hot pressing on the outer surface layer and the sponge inner layer, and positioning grooves are formed on the surfaces of the outer surface layer and the sponge inner layer;

s7, when the rising distance of the lifting seat (61) reaches a third threshold value, the driving motor (42) drives the screw rod (41) to reversely rotate, so that the double driving mechanism (4) and the positioning hot pressing mechanism (6) are reset, and then the bearing seat (72) is synchronously reset under the driving of the torsion spring (73), and at the moment, the outer surface layer and the sponge inner layer at the inner side of the bearing groove (74) are taken down;

s8, coating glue on the surface of the shaping sheet, then respectively placing the cushioning pad and the massage pad into the first positioning groove and the second positioning groove, then covering the sponge inner layer on the top of the shaping sheet, enabling the cushioning pad and the massage pad to be respectively aligned with the two positioning grooves on the sponge inner layer in the covering process, and when the shaping sheet is to be attached to the sponge inner layer, respectively entering the cushioning pad and the massage pad into the two positioning grooves, and after the glue is solidified, obtaining the damp-eliminating, antibacterial and foot-building balance insole.

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