CN115349693A - Dampness-clearing antibacterial foot-strengthening balance insole and production process thereof - Google Patents

Abstract

The invention discloses a dampness-eliminating antibacterial foot-strengthening balance insole and a production process thereof, and relates to the technical field of insoles, wherein the dampness-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, 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 dampness-eliminating antibacterial foot-strengthening balance insole is realized through production equipment of the dampness-eliminating antibacterial foot-strengthening balance insole; the production equipment of the dampness-eliminating antibacterial foot-strengthening balance insole comprises a bottom plate, wherein four corners of the top of the bottom plate are fixedly provided with guide vertical rods. The invention can reduce the assembly difficulty of the cushioning pad and the massage pad by forming the positioning groove, avoid influencing the accuracy of the raised position at the top of the insole, and simultaneously avoid the surface of the massage pad from being stained with glue in the assembly process, thereby leading the massage pad to play a better role subsequently.

Description

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

Technical Field

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

Background

The insole is used for being placed in a shoe, can play the roles of antibiosis, deodorization, heightening and the like, has flat appearance and poor fitting property with the foot of a human body, and can not form effective support for the arch of foot when being worn.

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

When the dampness-eliminating antibacterial foot-strengthening balance insole is actually produced, the outer surface layer and the sponge inner layer are required to be bonded together to form the insole layer, then the punching process is carried out to form the arch heel air hole, the arch foot sweat absorbing hole, the massage air hole, the fore-sole sweat absorbing hole and the fore-sole air hole, then the cushioning pad and the massage pad are bonded on the insole layer, and finally the insole layer and the shaping sheet are bonded together to obtain the balance insole.

In the process, the cushioning pad and the massage pad are assembled by bonding glue on the insole layer, wherein the outer sleeve of the massage pad is made of cotton, so that after the massage pad is bonded, the glue stained on the surface of the massage pad can seal the surface layer of the cotton outer sleeve, and then the inner filler in the subsequent outer sleeve cannot permeate through the outer sleeve region stained with the glue to play a role, thereby reducing the actual using effect of the inner filler.

Meanwhile, when the massage pad is assembled, as the bottom of the insole layer is not provided with the reference mark, the installation position of the massage pad can be judged only by technical personnel 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 inaccurate installation position of the massage pad, and the actual massage effect of the protruding part is influenced.

Therefore, it is necessary to invent a moisture-removing antibacterial foot-health balancing insole and a production process thereof to solve the problems.

Disclosure of Invention

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

In order to achieve the purpose, the invention provides the following technical scheme: a production process of a dampness-eliminating antibacterial foot-caring 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 formed in the top of the shaping sheet, and the production process of the dampness-eliminating antibacterial foot-caring balance insole is realized through production equipment of the dampness-eliminating antibacterial foot-caring balance insole;

production facility of antibiotic healthy sufficient balanced shoe-pad of dispelling damp includes the bottom plate, bottom plate top four corners is all fixed to be provided with the direction montant, four the common fixed shape in direction montant top is provided with the roof of falling the U-shaped, the bottom plate top is provided with dual drive mechanism, the bottom plate top is provided with absorption exhaust mechanism with the roof top of falling the U-shaped jointly, four the direction montant outside is provided with location hot pressing mechanism jointly, the roof inboard of falling the U-shaped is provided with bears the weight of the mechanism.

Preferably, the dual driving mechanism includes a screw, a driving motor, a driving gear, a threaded sleeve, and a first spring.

Preferably, the screw rod runs through to set up in the bottom plate top, and rotates with the bottom plate through the bearing and be connected, driving motor is fixed to be set up in the bottom plate top, driving gear is provided with two, one the fixed cover of driving gear connects to be set up in the screw rod outside, another driving gear is connected with the driving motor transmission, and two the driving gear meshing, the threaded sleeve cup joints and sets up in the screw rod outside, and with screw rod threaded connection, first spring is fixed to be set up in the screw rod top.

Preferably, adsorb exhaust mechanism includes air heater, air-out shunt tubes, output tube, air inlet shunt tubes, air inlet casing, closing plate, lifter plate, diaphragm and second spring.

Preferably, the air heater is fixed to be set up in the bottom plate top, the air-out shunt tubes is connected with the air heater output, the output tube runs through the screw rod and slides and set up in the screw rod inboard, an output and output tube fixed connection of air-out shunt tubes, the air inlet shunt tubes is connected with the air heater input, an input and air inlet casing fixed connection of air inlet shunt tubes, another input of air-out shunt tubes and another output department of air inlet shunt tubes all fix and are provided with the valve, the air inlet casing is fixed to be set up in the roof of falling the U-shaped, the closing plate is fixed to be set up inside the air inlet casing, the lifter plate slides to run through and sets up in air inlet casing top to it is inboard to extend to the roof of falling the U-shaped, the closing plate all runs through with the lifter plate side and is provided with the gas pocket, the diaphragm is fixed to be set up in the lifter plate top, the second spring is provided with two, two second spring fixed connection respectively in diaphragm bottom both sides, and all with air inlet casing fixed connection.

Preferably, 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.

Preferably, the lifting seat is slidably sleeved outside the four guide vertical rods and fixedly connected with the threaded sleeve, the positioning seat is slidably nested at the top of the lifting seat, the third springs are arranged in four and four, the third springs are respectively fixedly arranged in four corners of the bottom of the positioning seat and fixedly connected with the lifting seat, the hot pressing blocks and the heat exchange chambers are respectively arranged in two positions, namely two positions, of the hot pressing blocks, the hot pressing blocks are respectively slidably arranged at the top of the positioning seat and are respectively arranged in the two hot pressing blocks, the heat exchange chambers are communicated with the inner cavities of the positioning seat, the first pushing block is slidably arranged in the positioning seat along the vertical direction and is fixedly connected with the two hot pressing blocks, the second pushing block is slidably arranged in the positioning seat along the horizontal direction, the fourth spring is fixedly connected to the left side of the second pushing block, the third pushing block is fixedly sleeved outside the top end of the output tube, and the top end 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 avoiding groove, an adsorption cavity and an adsorption channel.

Preferably, the rotation axis runs through to set up in the roof inboard of falling the U-shaped, and is connected with the rotation axis rotation through the bearing, the fixed handle that is provided with in rotation axis front end, bear the fixed cup joint of seat and set up in the rotation axis outside, 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 the roof inner wall fixed connection of falling the U-shaped and the other end and bear a seat fixed connection, the bearing groove is seted up in bearing the seat top, it is provided with two, two to dodge the groove and all set up inside the bearing groove, it sets up inside bearing the seat to adsorb the chamber, and is connected with another input of air inlet shunt tubes, it is provided with a plurality ofly to adsorb the passageway, and is a plurality of it sets up on the bearing groove inner wall to adsorb the passageway, and all with adsorb the chamber intercommunication.

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, not coating the glue at two positions avoiding the groove to rise, and then covering a sponge inner layer on the top of the outer skin layer;

s2, starting the air heater and the driving motor, selecting a rotating shaft through a handle, sucking air through an air inlet flow dividing pipe after the air heater is started, and sucking air through an air inlet shell through the air inlet flow dividing pipe due to the fact that a valve is arranged at the input end, connected with the adsorption cavity, of the air inlet flow dividing pipe and outputting the air through the output end, not connected with the output pipe, of the air outlet flow dividing pipe;

s3, the rotating shaft rotates to drive the bearing seat to rotate one hundred eighty degrees clockwise, the bearing seat gradually relieves the limit on the lifting plate in the rotating process, the second spring pulls the lifting plate through the transverse plate at the moment, the lifting plate gradually descends, the air holes in the lifting plate and the air holes in the sealing plate are not collinear after the lifting plate descends, the inside of the air inlet shell is sealed, air cannot enter the air inlet flow dividing pipe through the air inlet shell at the moment, the air inlet flow dividing pipe inhales air through the input end connected with the adsorption cavity, the inside of the adsorption cavity is in a negative pressure state at the moment, and the outer skin layer is adsorbed in the bearing groove;

s4, a driving motor is started to drive a screw to rotate through a driving gear, the screw drives a threaded sleeve to continuously rise when rotating, a lifting seat is pushed when the threaded sleeve rises, the lifting seat drives a positioning seat to rise, in addition, in the rising process of the threaded sleeve, the screw relatively descends on the inner side of the threaded sleeve, and a first spring in a compressed state gradually resets;

s5, when the ascending distance of the lifting seat reaches a first threshold value, the first spring is completely reset, the first spring drives the third push block to descend along with the continuous ascending of the lifting seat, the second push block starts to be pushed when the third push block descends, the output pipe is driven to synchronously descend, the top end of the output pipe is not in contact with the inner wall of the positioning seat at the moment, under the limitation of a valve on the air outlet flow dividing pipe, hot air enters the positioning seat through the output pipe and then enters the heat exchange chamber to preheat the heat exchange chamber, and the excess heat air is discharged through the positioning seat and holes in the lifting seat;

s6, when the ascending distance of the lifting seat reaches a second threshold value, the positioning seat enters the inside of the bearing groove and compresses the outer skin layer and the sponge inner layer inside the bearing groove, at the moment, the positioning seat cannot continuously ascend under the driving of the lifting seat, when the subsequent lifting seat continuously ascends, the positioning seat compresses a third spring, and meanwhile, under the pushing of a third pushing block, the second pushing block moves leftwards and pushes a first pushing block, so that two preheated hot pressing blocks extend out of the inside of the positioning seat and carry out hot pressing on the outer skin layer and the sponge inner layer, and positioning grooves are formed in the outer skin layer and the sponge inner layer;

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

s8, glue is coated on the surface of the shaping sheet, then the cushioning pad and the massage pad are respectively placed in a first positioning groove and a second positioning groove, then the sponge inner layer is covered at the top of the shaping sheet, the cushioning pad and the massage pad are respectively aligned to two positioning grooves in the sponge inner layer in the covering process, when the shaping sheet is attached to the sponge inner layer, the cushioning pad and the massage pad respectively enter the two positioning grooves, and after the glue is solidified, the damp-clearing antibacterial foot-care balance insole is prepared.

The invention has the technical effects and advantages that:

the double driving mechanism, the adsorption exhaust mechanism, the positioning hot-pressing mechanism and the bearing mechanism are arranged, so that the bearing mechanism is used for bearing and overturning the bonded outer skin layer and sponge inner layer, meanwhile, the adsorption exhaust mechanism is triggered in the overturning process by the bearing mechanism, the adsorption exhaust mechanism is matched with the bearing mechanism to adsorb the overturned outer skin layer and sponge inner layer, then the double driving mechanism drives the positioning hot-pressing mechanism, the positioning hot-pressing mechanism is lifted, meanwhile, the adsorption exhaust mechanism preheats the positioning hot-pressing mechanism in the lifting process of the positioning hot-pressing mechanism, the positioning hot-pressing mechanism carries out hot pressing on the outer skin layer and the sponge inner layer after positioning the outer skin layer and the sponge inner layer, a positioning groove is formed at the bottom of the outer skin layer and the sponge inner layer, the positioning groove can be used for positioning after the cushioning pad and the massage pad are bonded at the top of the shaping sheet, the bonding of the shaping sheet and the sponge inner layer can be completed, compared with the same type device in the prior art, the positioning groove can reduce the assembling difficulty of the cushioning pad and the insole, the top of the insole and further avoid the influence on the assembling accuracy of the top of the massage pad, and can be better played in the subsequent massage pad assembling process.

Drawings

Fig. 1 is an overall front sectional structural view of the present invention.

Fig. 2 is a schematic front sectional structural view of the dual driving mechanism and the adsorption and exhaust mechanism of the present invention.

Fig. 3 is a schematic front sectional structural view of the dual driving mechanism and the positioning hot press mechanism of the present invention.

Fig. 4 is a schematic front sectional structural view of the adsorption and exhaust mechanism and the bearing mechanism of the present invention.

In the figure: 1. a base plate; 2. a guide vertical rod; 3. an inverted U-shaped top plate; 4. a dual drive mechanism; 41. a screw; 42. a drive motor; 43. a drive gear; 44. a threaded bushing; 45. a first spring; 5. an adsorption exhaust mechanism; 51. a hot air blower; 52. an air outlet flow dividing pipe; 53. an output pipe; 54. an air inlet flow dividing pipe; 55. an air inlet housing; 56. a closing plate; 57. a lifting plate; 58. a transverse plate; 59. a second spring; 6. positioning a hot-pressing mechanism; 61. a lifting seat; 62. positioning seats; 63. a third spring; 64. hot pressing blocks; 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 rotating shaft; 72. a bearing seat; 73. a torsion spring; 74. a bearing groove; 75. an avoidance groove; 76. an adsorption chamber; 77. an adsorption channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The invention provides a production process of a dampness-eliminating antibacterial foot-strengthening balance insole shown in figures 1-4, wherein the dampness-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, 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 formed in the top of the shaping sheet, and the production process of the dampness-eliminating antibacterial foot-strengthening balance insole is realized through production equipment of the dampness-eliminating antibacterial foot-strengthening balance insole;

production facility of antibiotic healthy sufficient balanced shoe-pad of dispelling damp includes bottom plate 1, 1 top four corners of bottom plate is all fixed to be provided with direction montant 2, four 2 tops of direction montant are fixed jointly and are provided with the shape of falling U roof 3, 1 top of bottom plate is provided with dual actuating mechanism 4, 1 top of bottom plate and 3 tops of the shape of falling U roof are provided with jointly and adsorb exhaust mechanism 5, four 2 outsides of direction montant are provided with location hot pressing mechanism 6 jointly, 3 inboards of the shape of falling U roof are provided with and bear mechanism 7.

As shown in fig. 2 and fig. 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, wherein the screw 41 is disposed on the top of the bottom plate 1 in a penetrating manner and is rotatably connected with the bottom plate 1 through a bearing, the driving motor 42 is fixedly disposed on the top of the bottom plate 1, two driving gears 43 are disposed, one driving gear 43 is fixedly sleeved on the outer side of the screw 41, the other driving gear 43 is in transmission connection with the driving motor 42, and the two driving gears 43 are engaged with each other, the threaded sleeve 44 is sleeved on the outer side of the screw 41 and is in threaded connection with the screw 41, and the first spring 45 is fixedly disposed on the top end of the screw 41.

As shown in fig. 2 and fig. 4, the adsorption exhaust mechanism 5 includes an air heater 51, an air outlet shunt pipe 52, an output pipe 53, an air inlet shunt pipe 54, an air inlet housing 55, a sealing plate 56, a lifting plate 57, a transverse plate 58 and a second spring 59, wherein the air heater 51 is fixedly disposed at the top of the bottom plate 1, the air outlet shunt pipe 52 is connected to the output end of the air heater 51, the output pipe 53 penetrates through the screw 41 and is slidably disposed inside the screw 41, an output end of the air outlet shunt pipe 52 is fixedly connected to the output pipe 53, the air inlet shunt pipe 54 is connected to the input end of the air heater 51, an input end of the air inlet shunt pipe 54 is fixedly connected to the air inlet housing 55, another input end of the air outlet shunt pipe 52 and another output end of the air inlet shunt pipe 54 are both fixedly disposed with a valve, the air inlet housing 55 is fixedly disposed at the top of the inverted U-shaped top plate 3, the sealing plate 56 is fixedly disposed inside the air inlet housing 55, the lifting plate 57 is slidably disposed at the top of the air inlet housing 55 and extends to the inside of the inverted U-shaped top plate 3, the transverse plate 56 and the lifting plate 57 are both fixedly disposed at the sides, the air holes are disposed at the top of the lifting plate 57, the second spring 59, two springs are respectively disposed at the top of the lifting plate 59, and the second spring are fixedly connected to the second spring, and the second spring 59.

Through the arrangement of the above structure, after the air heater 51 sucks air through the air inlet shunt pipe 54 and heats the air, the air is output through the air outlet shunt pipe 52, and due to the limitation of the two valves, under the condition that the input end of the air inlet shunt pipe 54, which is not provided with a valve, and the output end of the air outlet shunt pipe 52, which is not provided with a valve, are not limited, the air enters from the input end of the air inlet shunt pipe 54, which is not provided with a valve, and is output from the output end of the air outlet shunt pipe 52, which is not provided with a valve.

As shown in fig. 3, location hot press mechanism 6 includes lift seat 61, positioning seat 62, third spring 63, hot pressing block 64, heat transfer cavity 65, first ejector pad 66, second ejector pad 67, fourth spring 68 and third ejector pad 69, wherein, lift seat 61 slides to cup joint and sets up in the 2 outsides of four direction montants, and with threaded sleeve 44 fixed connection, positioning seat 62 slides to nest and sets up in lift seat 61 top, third spring 63 is provided with four, four third spring 63 is fixed respectively and sets up in positioning seat 62 bottom four corners, and all with lift seat 61 fixed connection, hot pressing block 64 and heat transfer cavity 65 all are provided with two, two hot pressing block 64 slides respectively and runs through and set up in positioning seat 62 top, two heat transfer cavity 65 opens respectively inside two hot pressing blocks 64, heat transfer cavity 65 and positioning seat 62 inner chamber intercommunication, first ejector pad 66 slides along vertical direction and sets up inside positioning seat 62, and with two hot pressing block 64 fixed connection, second ejector pad 67 slides along the horizontal direction and sets up inside positioning seat 62, fourth spring 68 fixed connection in second ejector pad 67, third ejector pad top end and the bearing 69 set up in the positioning seat top end and the third ejector pad top end is connected through first ejector pad 53.

Through the arrangement of the structure, the positioning seat 62 is driven to continuously rise when the lifting seat 61 rises, meanwhile, the compression on the first spring 45 is continuously released in the rising process of the lifting seat 61, when the rising distance of the lifting seat 61 reaches a first threshold value, the first spring 45 is completely reset, subsequently, along with the continuous rising of the lifting seat 61, the first spring 45 drives the third push block 69 to fall, when the third push block 69 falls, the second push block 67 is pushed, the output pipe 53 is driven to synchronously fall, at the moment, the top end of the output pipe 53 is not contacted with the inner wall of the positioning seat 62, under the limitation of the valve on the air outlet shunt pipe 52, hot air enters the positioning seat 62 through the output pipe 53, then enter into heat transfer chamber 65 inside and preheat heat transfer chamber 65, the surplus heat air is then discharged through the hole on positioning seat 62 and the lift seat 61, after the positioning seat 62 can't continue to rise under the drive of lift seat 61, follow-up lift seat 61 continues to rise, positioning seat 62 compresses third spring 63, simultaneously under the promotion of third ejector pad 69, second ejector pad 67 moves left and promotes first ejector pad 66, and then make two hot pressing blocks 64 after preheating stretch out by positioning seat 62 is inside, and carry out the hot pressing to outer epidermis layer and sponge inlayer, and then form positioning groove at outer epidermis layer and sponge inlayer surface.

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 avoiding groove 75, an adsorption cavity 76 and an adsorption channel 77, wherein, the rotation shaft 71 is arranged inside the inverted U-shaped top plate 3 in a penetrating manner and is connected with the rotation shaft 71 through a bearing in a rotating manner, a handle is fixedly arranged at the front end of the rotation shaft 71, the bearing seat 72 is fixedly connected with the rotation shaft 71 in a fixing manner and is arranged outside the rotation shaft 71, the torsion spring 73 is arranged in two and is connected with two ends of the rotation shaft 71 in a sleeved manner, one end of the torsion spring 73 is fixedly connected with the inner wall of the inverted U-shaped top plate 3 and is fixedly connected with the other end of the bearing seat 72, the bearing groove 74 is arranged at the top of the bearing seat 72, the avoiding groove 75 is arranged in two and is arranged inside the bearing groove 74, the adsorption cavity 76 is arranged inside the bearing seat 72 and is connected with another input end of the air inlet flow dividing pipe 54, the adsorption channel 77 is provided with a plurality of the adsorption channels 77 arranged 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 bearing groove 74 to bear exodermis layer and sponge inlayer, utilize simultaneously to bear seat 72 and drive exodermis layer and the upset of sponge inlayer, bear seat 72 upset in-process in addition can make and adsorb the inside negative pressure state that is in of chamber 76, and then adsorb exodermis layer and the sponge inlayer that bears the inside of groove 74.

Example 2

The production process of the dampness-eliminating antibacterial foot-strengthening balance insole specifically comprises 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, not coating the glue at two positions for avoiding the groove 75 from rising, and then covering a sponge inner layer on the top of the outer skin layer;

s2, starting the hot air blower 51 and the driving motor 42, selecting the rotating shaft 71 through a handle, sucking air through the air inlet shunt pipe 54 after the hot air blower 51 is started, and sucking air through the air inlet shell 55 through the air inlet shunt pipe 54 because a valve is arranged at the input end of the air inlet shunt pipe 54 connected with the adsorption cavity 76, and outputting the air through the output end of the air outlet shunt pipe 52 not connected with the output pipe 53;

s3, the rotating shaft 71 rotates to drive the bearing seat 72 to rotate one hundred eighty degrees clockwise, the bearing seat 72 gradually releases the limit of the lifting plate 57 in the rotating process, at the moment, the second spring 59 pulls the lifting plate 57 through the transverse plate 58, so that the lifting plate 57 gradually descends, air holes in the lifting plate 57 after descending are not collinear with air holes in the closing plate 56 any more, the inside of the air inlet shell 55 is closed, air cannot enter the air inlet flow dividing pipe 54 through the air inlet shell 55 at the moment, the air inlet flow dividing pipe 54 sucks air through an input end connected with the adsorption cavity 76, the inside of the adsorption cavity 76 is in a negative pressure state at the moment, and an outer skin layer is adsorbed in the bearing groove 74;

s4, the driving motor 42 is started to drive the screw rod 41 to rotate through the driving gear 43, the screw rod 41 drives the threaded sleeve 44 to continuously rise when rotating, the lifting seat 61 is pushed when the threaded sleeve 44 rises, the lifting seat 61 drives the positioning seat 62 to rise, in addition, in the rising process of the threaded sleeve 44, the screw rod 41 relatively descends on the inner side of the threaded sleeve 44, and the first spring 45 in a compressed state gradually resets;

s5, when the ascending distance of the lifting seat 61 reaches a first threshold value, the first spring 45 is completely reset, the first spring 45 drives the third push block 69 to descend subsequently along with the continuous ascending 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 in contact with the inner wall of the positioning seat 62 any more, under the limitation of a valve on the air outlet flow-dividing pipe 52, hot air enters the positioning seat 62 through the output pipe 53 and then enters the heat exchange cavity 65 to preheat the heat exchange cavity 65, and the excess heat air is discharged through the positioning seat 62 and holes in the lifting seat 61;

s6, when the ascending distance of the lifting seat 61 reaches a second threshold value, the positioning seat 62 enters the inside of the bearing groove 74 and compresses the outer skin layer and the sponge inner layer inside the bearing groove 74, at the moment, the positioning seat 62 cannot be driven by the lifting seat 61 to continuously ascend, when the subsequent lifting seat 61 continuously ascends, the positioning seat 62 compresses the third spring 63, and meanwhile, under the pushing action 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 inside of the positioning seat 62 and hot press the outer skin layer and the sponge inner layer, and a positioning groove is formed on the outer skin layer and the sponge inner layer;

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

s8, glue is coated on the surface of the shaping sheet, then the cushioning pad and the massage pad are respectively placed in a first positioning groove and a second positioning groove, then the sponge inner layer is covered at the top of the shaping sheet, the cushioning pad and the massage pad are respectively aligned to two positioning grooves in the sponge inner layer in the covering process, when the shaping sheet is attached to the sponge inner layer, the cushioning pad and the massage pad respectively enter the two positioning grooves, and after the glue is solidified, the damp-clearing antibacterial foot-care balance insole is prepared.

Finally, it should be noted that: 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 or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a production technology of antibiotic healthy sufficient balanced shoe-pad that dispels damp, antibiotic healthy sufficient balanced shoe-pad that dispels damp is including outer epidermal layer, sponge inlayer and the stereotype piece that from top to bottom sets gradually, be provided with between sponge inlayer and the stereotype and shake pad and massage and fill up, the stereotype top is provided with constant head tank one and constant head tank two, its characterized in that: the production process of the dampness-eliminating antibacterial foot-strengthening balance insole is realized by production equipment of the dampness-eliminating antibacterial foot-strengthening balance insole;

production facility of antibiotic healthy sufficient balanced shoe-pad of dispelling damp 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 of falling the U-shaped (3), bottom plate (1) top is provided with dual actuating mechanism (4), bottom plate (1) top is provided with jointly with roof of falling the U-shaped (3) top and adsorbs exhaust mechanism (5), four the direction montant (2) outside is provided with location hot pressing mechanism (6) jointly, roof of falling the U-shaped (3) inboard is provided with bears mechanism (7).

2. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 1, is characterized in that: the dual-drive mechanism (4) comprises a screw rod (41), a drive motor (42), a drive gear (43), a threaded sleeve (44) and a first spring (45).

3. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 2, is characterized in that: screw rod (41) run through to set up in bottom plate (1) top, and rotate through bearing and bottom plate (1) and be connected, driving motor (42) are fixed to be set up in bottom plate (1) top, drive gear (43) are provided with two, one the fixed cover of drive gear (43) connects to be set up in the screw rod (41) outside, another drive gear (43) are connected with driving motor (42) transmission, and two drive gear (43) meshing, threaded sleeve pipe (44) cup joint and set up in the screw rod (41) outside, and with screw rod (41) threaded connection, first spring (45) are fixed to be set up in screw rod (41) top.

4. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 3, is characterized in that: the adsorption and exhaust mechanism (5) comprises a hot air blower (51), an air outlet flow dividing pipe (52), an output pipe (53), an air inlet flow dividing pipe (54), an air inlet shell (55), a closing plate (56), a lifting plate (57), a transverse plate (58) and a second spring (59).

5. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 4, is characterized in that: air heater (51) fixed set up in bottom plate (1) top, air-out shunt tubes (52) are connected with air heater (51) output, output tube (53) run through screw rod (41) and slide and set up in screw rod (41) inboard, an output and output tube (53) fixed connection of air-out shunt tubes (52), air inlet shunt tubes (54) are connected with air heater (51) input, an input and air inlet casing (55) fixed connection of air inlet shunt tubes (54), another input of air-out shunt tubes (52) and another output department of air inlet shunt tubes (54) all fixed are provided with the valve, air inlet casing (55) are fixed to be set up in inverted U-shaped roof (3) top, closing plate (56) are fixed to be set up inside air inlet casing (55), lifter plate (57) slide to run through and set up in air inlet casing (55) top to extend to inverted U-shaped roof (3) inboard, closing plate (56) and lifter plate (57) side all run through and be provided with the air hole, diaphragm (58) fixed set up in lifter plate (57) top, second spring (59) are provided with two fixed connection respectively in second casing (58) bottom and all fixed connection of both sides (58).

6. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 5, is characterized in that: 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).

7. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 6, is characterized in that: lifting seat (61) slip cup joint set up in four direction montant (2) outsides, and with threaded sleeve (44) fixed connection, positioning seat (62) slip nestification sets up in lifting seat (61) top, third spring (63) are provided with four, four third spring (63) are fixed respectively and set up in positioning seat (62) bottom four corners, and all with lifting seat (61) fixed connection, hot pressing piece (64) all are provided with two, two with heat transfer cavity (65) hot pressing piece (64) slide respectively to run through set up in positioning seat (62) top, two inside two hot pressing piece (64) were seted up respectively in heat transfer cavity (65), heat transfer cavity (65) and positioning seat (62) inner chamber intercommunication, first ejector pad (66) slide along vertical direction and set up inside positioning seat (62), and with two hot pressing piece (64) fixed connection, second ejector pad (67) slide along the horizontal direction and set up inside positioning seat (62), fourth spring (68) fixed connection in second ejector pad (67) left side, third ejector pad (69) outside is arranged in first fixed cover (53) bearing connection top end (69, output tube (69) top end and output tube (69) top end (45).

8. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 7, 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).

9. The process for producing a balance insole with effects of eliminating dampness, resisting bacteria, strengthening feet and balancing feet as claimed in claim 8, wherein: rotation axis (71) run through to set up in the shape of falling U roof (3) inboard, and rotate with rotation axis (71) through the bearing and be connected, rotation axis (71) front end is fixed to be provided with the handle, bear fixed the cup jointing of seat (72) and set up in rotation axis (71) outside, torsional spring (73) is provided with two, two torsional spring (73) cup joints respectively and sets up in rotation axis (71) outside both ends, torsional spring (73) one end and the shape of falling U roof (3) inner wall fixed connection and the other end and bear seat (72) fixed connection, bearing groove (74) are seted up in and are born seat (72) top, it is provided with two, two to dodge groove (75) it all sets up inside bearing groove (74) to dodge groove (75), it sets up inside bearing seat (72) to adsorb chamber (76), and is connected with another input of air inlet shunt tubes (54), it is provided with a plurality ofly to adsorb passageway (77) to adsorb to be provided with a plurality ofly it is a plurality ofly to adsorb passageway (77) to open on bearing groove (74) inner wall, and all communicate with adsorbing chamber (76).

10. The production process of the dampness-eliminating, antibacterial, foot-strengthening and balancing insole as claimed in claim 9, wherein the production process specifically comprises 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, not coating the glue at the positions where two avoiding grooves (75) rise, and then covering a sponge inner layer on the top of the outer skin layer;

s2, starting the hot air blower (51) and the driving motor (42), selecting the rotating shaft (71) through a handle, sucking air through the air inlet flow-dividing pipe (54) after the hot air blower (51) is started, and outputting the air through the output end of the air outlet flow-dividing pipe (52) which is not connected with the output pipe (53) because the valve is arranged at the input end of the air inlet flow-dividing pipe (54) connected with the adsorption cavity (76) and the air inlet flow-dividing pipe (54) sucking air through the air inlet shell (55);

s3, the rotating shaft (71) drives the bearing seat (72) to rotate one hundred eighty degrees clockwise when rotating, the bearing seat (72) gradually releases the limit of the lifting plate (57) in the rotating process, at the moment, the second spring (59) pulls the lifting plate (57) through the transverse plate (58), so that the lifting plate (57) gradually descends, air holes in the lifting plate (57) and air holes in the closing plate (56) are not collinear any more, the interior of the air inlet shell (55) is closed, air cannot enter the air inlet flow dividing pipe (54) through the air inlet shell (55), the air inlet flow dividing pipe (54) sucks air through an input end connected with the adsorption cavity (76), at the moment, the interior of the adsorption cavity (76) is in a negative pressure state, and the outer skin layer is adsorbed in the bearing groove (74);

s4, a driving motor (42) is started to drive a screw rod (41) to rotate through a driving gear (43), the screw rod (41) is driven to continuously rise when rotating, the lifting seat (61) is pushed when the screw sleeve (44) rises, then the lifting seat (61) drives the positioning seat (62) to rise, in addition, in the rising process of the screw sleeve (44), the screw rod (41) relatively descends on the inner side of the screw sleeve (44), and a first spring (45) in a compression state gradually resets;

s5, when the ascending distance of the lifting seat (61) reaches a first threshold value, the first spring (45) is completely reset, the lifting seat (61) continuously ascends subsequently, the first spring (45) drives the third push block (69) to descend, the third push block (69) starts to push the second push block (67) when descending, the output pipe (53) is driven to synchronously descend, at the moment, the top end of the output pipe (53) is not in contact with the inner wall of the positioning seat (62), under the limitation of a valve on the air outlet flow-dividing 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 the residual heat air is discharged through the positioning seat (62) and holes in the lifting seat (61);

s6, when the ascending distance of the lifting seat (61) reaches a second threshold value, the positioning seat (62) enters the inside of the bearing groove (74), the outer skin layer and the sponge inner layer inside the bearing groove (74) are compressed, the positioning seat (62) cannot be driven by the lifting seat (61) to continuously ascend, when the subsequent lifting seat (61) continuously ascends, the positioning seat (62) compresses the third spring (63), and meanwhile, under the pushing action 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), the outer skin layer and the sponge inner layer are subjected to hot pressing, and positioning grooves are formed in the outer skin layer and the sponge inner layer;

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

s8, glue is coated on the surface of the shaping sheet, then the cushioning pad and the massage pad are respectively placed in a first positioning groove and a second positioning groove, then the sponge inner layer is covered at the top of the shaping sheet, the cushioning pad and the massage pad are respectively aligned to two positioning grooves in the sponge inner layer in the covering process, when the shaping sheet is attached to the sponge inner layer, the cushioning pad and the massage pad respectively enter the two positioning grooves, and after the glue is solidified, the damp-clearing antibacterial foot-care balance insole is prepared.

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