CN111266260A

CN111266260A - Latex glove coating device

Info

Publication number: CN111266260A
Application number: CN202010199052.1A
Authority: CN
Inventors: 孙小兰
Original assignee: Individual
Current assignee: Bengbu Shenxu Plastic Cement Product Co ltd
Priority date: 2020-03-20
Filing date: 2020-03-20
Publication date: 2020-06-12
Anticipated expiration: 2040-03-20
Also published as: CN111266260B

Abstract

The invention relates to the field of latex gloves, in particular to a latex glove coating device. The invention aims to provide a latex glove coating device. A latex glove coating device comprises a collecting box, a top plate, a liquid-air double-port machine, a glove opening device, a turnover device, an inner coating auxiliary device and a control screen; the top of the bottom foot and the bottom plate are welded, and the middle right side of the top end of the bottom plate is connected with the glove opening device; the rear side in the bottom plate top is provided with a turnover device. The invention reduces the using amount of the coating liquid, and avoids the phenomenon that the wrist end is closed again due to water pressure after the gloves are thrown into the coating liquid pool during soaking, and the coating liquid is difficult to enter the interior to play a role; the gloves are pushed from bottom to top to be fully contacted with the coating liquid, and then the gloves are turned upside down, so that the contact is further promoted, and the utilization rate of the coating liquid is improved.

Description

Latex glove coating device

Technical Field

The invention relates to the field of latex gloves, in particular to a latex glove coating device.

Background

The disposable protective gloves have important application in the fields of medical operation, medical examination, medical care, food processing, electronic industry and the like. The disposable protective gloves mainly comprise butyronitrile gloves, natural rubber gloves, PVC gloves and PE gloves. The advantages and disadvantages of various gloves are different. High-end, especially medical grade gloves are mainly nitrile gloves and natural rubber gloves. The natural latex is adopted as the raw material in the production of the current natural rubber gloves. The natural latex contains protein, and the product can cause allergic reaction of human body in the using process. The butyronitrile gloves are suitable for long-term wearing, but the fitting property and the elasticity of the gloves are not as good as those of natural rubber gloves. Especially, the protective performance of the nitrile gloves can not reach the level of natural rubber when the gloves are exposed to acid, alkali and chemical agents for a long time. The polyurethane has the advantages of corrosion resistance, solvent resistance, biocompatibility and the like, and can solve the problem of allergy when being used for a coating of a natural rubber glove. And the polyurethane product has good surface smoothness, so that the polyurethane product is also beneficial to wearing, and the powder applying or chlorination step is omitted in the preparation process.

Chinese patent CN103554542A discloses a coating process of latex gloves aiming at the problems that the traditional dipping solution for coating films is prepared by mixing a coagulant with main raw materials of the coating films, and the like, so that the dipping effect is poor, the components are more, and the process is complicated.

In summary, there is a need to develop a device for changing a coating by a soaking method, so as to overcome the disadvantages of excessive consumption of coating materials, extremely low utilization rate, high cost of subsequent harmless treatment, and easy environmental pollution in the prior art.

Disclosure of Invention

The invention aims to overcome the defects of overlarge consumption of coating materials, extremely low utilization rate, high subsequent harmless treatment cost and easy environmental pollution, and the technical problem to be solved by the invention is to provide a latex glove coating device.

The invention is achieved by the following specific technical means:

a latex glove coating device comprises bottom feet, a bottom plate, a supporting column, a collecting box, a top plate, a liquid-air double-port machine, a glove opening device, a turnover device, an inner coating auxiliary device and a control screen; the top of the bottom foot is welded with the bottom plate; the right side of the top end of the bottom plate is welded with the strut; the middle part of the top of the bottom plate is connected with the collecting box; the middle right side of the top end of the bottom plate is connected with the glove opening device; the middle rear side of the top of the bottom plate is provided with a turnover device, and the rear side of the bottom in the turnover device is connected with the glove opening device; an inner coating auxiliary device is arranged in the middle of the top end of the bottom plate and is positioned above the collecting box, and the right side of the top end of the inner coating auxiliary device is connected with the glove opening device; the top end of the strut is connected with the top plate, the middle part of the bottom of the top plate is connected with the glove opening device, and the rear side of the middle part of the bottom of the top plate is connected with the turnover device; the right middle part of the pillar is provided with a control screen.

The glove opening device comprises a motor, a first driving wheel, a first bevel gear, a second driving wheel, a third driving wheel, a fourth driving wheel, a fifth driving wheel, a first electric push rod, a first straight gear, a second electric push rod, a second straight gear, a sixth driving wheel, a seventh driving wheel, a third electric push rod, a third straight gear, a first internal gear, a first positive thread screw rod, a first driving frame, a first negative thread screw rod, a second driving frame, a second negative thread screw rod, a second positive thread screw rod, a second internal gear, a first driving plate, a second driving plate, a third negative thread screw rod, a third positive thread screw rod, a third internal gear, a third driving plate and a fourth driving plate; the left side of the motor is in transmission connection with the first transmission wheel; the left side of the first transmission wheel is in transmission connection with a first bevel gear, and the right side of the first bevel gear is connected with a motor; the top of the first driving wheel is in transmission connection with a third driving wheel; the left top of the first bevel gear is meshed with the second bevel gear; the top of the second bevel gear is in transmission connection with a second transmission wheel; the top of the third driving wheel is in transmission connection with a fourth driving wheel, and the bottom of the fourth driving wheel is connected with the first driving wheel; the left side of the third driving wheel is in transmission connection with the first electric push rod; the top of the fourth driving wheel is in transmission connection with a fifth driving wheel, and the bottom of the fifth driving wheel is connected with the first driving wheel; the left side of the fourth driving wheel is in transmission connection with a second electric push rod; the left side of the fifth driving wheel is in transmission connection with the sixth driving wheel; the left side of the first electric push rod is in transmission connection with the first straight gear; a second internal gear is arranged on the left of the first straight gear; the left side of the second electric push rod is in transmission connection with a second straight gear; a first internal gear is arranged on the left of the second straight gear; the bottom of the sixth driving wheel is in transmission connection with the seventh driving wheel; the right side of the seventh driving wheel is in transmission connection with the third electric push rod; the right side of the third electric push rod is in transmission connection with a third straight gear; a third inner gear is arranged on the right of the third straight gear; the left side of the first internal gear is in transmission connection with a first positive thread screw rod; the left side of the outer surface of the first positive thread screw rod is in transmission connection with the first transmission frame; the left side of the first positive thread screw rod is in transmission connection with the first negative thread screw rod; the left bottom in the first transmission frame is in transmission connection with the second thread-reversing screw rod; the right bottom in the first transmission frame is in transmission connection with a second positive thread screw rod, the left side of the second positive thread screw rod is connected with a second reverse thread screw rod, and the right side of the second positive thread screw rod is connected with a second internal gear; the right side of the outer surface of the first reverse thread screw rod is in transmission connection with the second transmission frame; the left bottom in the second transmission frame is in transmission connection with a third reverse thread screw rod, and the left side of the third reverse thread screw rod is connected with a third internal gear; the right bottom in the second transmission frame is in transmission connection with a third positive thread screw rod, and the left side of the third positive thread screw rod is connected with a third reverse thread screw rod; the right side of the outer surface of the second reverse thread screw rod is in transmission connection with the first transmission plate; the left side of the outer surface of the second positive thread screw rod is in transmission connection with a second transmission plate; the right side of the outer surface of the third reverse thread screw rod is in transmission connection with a third transmission plate; the left side of the outer surface of the third positive thread screw rod is in transmission connection with a fourth transmission plate; the left rear side of the second driving wheel is connected with the turnover device; the left side of the third driving wheel is connected with an inner coating auxiliary device.

The turnover device comprises an eighth transmission wheel, a fourth electric push rod, a fourth straight gear, a fifth straight gear, a third bevel gear, a fourth bevel gear, a first transmission rod, a first rotating disc, a first disc sleeve, a fifth bevel gear, a sixth bevel gear, a first rotatable clamping plate, a first fixed clamping plate, a second rotating disc, a second disc sleeve, a second transmission rod, a seventh bevel gear, an eighth bevel gear, a sixth straight gear, a third transmission rod, a ninth bevel gear, a tenth bevel gear, a second rotatable plate clamp, a second fixed plate clamp, an eleventh bevel gear, a twelfth bevel gear and a seventh straight gear; the top of the eighth driving wheel is in transmission connection with a fourth electric push rod; the top of the fourth electric push rod is in transmission connection with a fourth straight gear; the left side of the fourth straight gear is meshed with the fifth straight gear; the top of the fifth straight gear is in transmission connection with a third bevel gear; the left side of the bottom of the third bevel gear is meshed with the fourth bevel gear; the left side of the fourth bevel gear is in transmission connection with the first transmission rod; the middle right side of the outer surface of the first transmission rod is rotationally connected with the first rotating disc; the left side of the outer surface of the first transmission rod is rotationally connected with the second rotating disk; the left side of the first transmission rod is in transmission connection with a fifth bevel gear; the side wall of the first rotating disc is in sliding connection with the first disc sleeve; the left bottom of the fifth bevel gear is meshed with the sixth bevel gear; the bottom of the outer surface of the sixth bevel gear is in transmission connection with the first rotatable clamping plate; the bottom of the sixth bevel gear is rotationally connected with the first fixed splint, and the right side of the first fixed splint is connected with the second rotating disc; the side wall of the second rotating disk is in sliding connection with the second disk sleeve; the right middle part of the second rotating disc is in transmission connection with a second transmission rod, and the right side in the outer surface of the second transmission rod is connected with the first rotating disc; the middle bottom in the second rotating disc is in transmission connection with a third transmission rod, and the middle left side in the outer surface of the third transmission rod is connected with the first rotating disc; the right side of the second transmission rod is in transmission connection with a seventh bevel gear; the right top of the seventh bevel gear is meshed with the eighth bevel gear; the bottom of the eighth bevel gear is in transmission connection with a sixth straight gear; the left side of the third transmission rod is in transmission connection with a ninth bevel gear; the right side of the third transmission rod is in transmission connection with an eleventh bevel gear; the left bottom of the ninth bevel gear is meshed with the tenth bevel gear; the bottom of the outer surface of the tenth bevel gear is in transmission connection with a second rotatable plate clamp; the bottom of the tenth bevel gear is rotationally connected with the second fixed plate clamp, and the right side of the second fixed plate clamp is connected with the second rotating disc; the right top of the eleventh bevel gear is meshed with the twelfth bevel gear; the bottom of the twelfth bevel gear is in transmission connection with a seventh straight gear; the left front side of the eighth driving wheel is connected with the second driving wheel.

The inner coating auxiliary device comprises a ninth transmission wheel, a tenth transmission wheel, a thirteenth bevel gear, a fourteenth bevel gear, an eleventh transmission wheel, a first rod sleeve, a first telescopic rotating rod, a first rod sleeve block, a first rotating wheel, a first sliding rod, a first track rod, a twelfth transmission wheel, a thirteenth transmission wheel, an eighth straight gear, a ninth straight gear, a second rod sleeve, a second telescopic rotating rod, a second rod sleeve block, a second sliding rod, a second track rod and a second rotating wheel; the bottom of the ninth driving wheel is in transmission connection with the tenth driving wheel; the left side of the tenth driving wheel is in transmission connection with a thirteenth bevel gear; the left rear side of the thirteenth bevel gear is meshed with the fourteenth bevel gear; the shaft center at the rear end of the fourteenth bevel gear is in transmission connection with the left lower side and the eleventh transmission wheel; the rear end axle center of the eleventh transmission wheel is in transmission connection with the first rod sleeve; the left lower side of the eleventh driving wheel is in transmission connection with the twelfth driving wheel; the middle part in the first rod sleeve is in transmission connection with the first telescopic rotating rod; the rear right side of the first telescopic rotating rod is in transmission connection with the first sleeve rod block; the left side of the first sleeve rod block is connected with a first rotating wheel; the middle part in the first sleeve rod block is in transmission connection with the first sliding rod; the inner bottom of the first sliding rod is in sliding connection with the first track rod; the left side of the twelfth driving wheel is in transmission connection with a thirteenth driving wheel; the left upper side of the thirteenth transmission wheel is in transmission connection with the eighth straight gear; the right upper side of the eighth straight gear is meshed with the ninth straight gear; the axle center at the rear end of the ninth straight gear is in transmission connection with the second rod sleeve; the middle part in the second rod sleeve is in transmission connection with the second telescopic rotating rod; the rear left side of the second telescopic rotating rod is in transmission connection with the second sleeve rod block; the middle part in the second sleeve rod block is in transmission connection with the second sliding rod; the right side of the second sleeve rod block is connected with a second rotating wheel; the inner bottom of the second sliding rod is in sliding connection with the second track rod; the right side of the ninth driving wheel is connected with the third driving wheel.

When the fourth electric push rod stretches out and draws back to enable the fourth straight gear to be meshed with the fifth straight gear, the eighth transmission wheel transmits the fourth electric push rod, the fourth electric push rod transmits the fourth straight gear, the fourth straight gear is meshed with the fifth straight gear, the fifth straight gear drives the third bevel gear to rotate, the third bevel gear is meshed with the fourth bevel gear, the fourth bevel gear then transmits the first transmission rod, then the first transmission rod drives the fifth bevel gear to rotate, the fifth bevel gear is meshed with the sixth bevel gear, and the sixth bevel gear drives the first rotatable clamping plate to rotate; when the fourth electric push rod stretches and retracts to enable the fourth straight gear to be meshed with the sixth straight gear, the eighth transmission wheel drives the fourth electric push rod, the fourth electric push rod drives the fourth straight gear, the fourth straight gear is meshed with the sixth straight gear, the sixth straight gear drives the eighth bevel gear to rotate, the eighth bevel gear is meshed with the seventh bevel gear, the seventh bevel gear drives the second transmission rod, and the second transmission rod simultaneously drives the first rotating disc and the second rotating disc to rotate; when the fourth electric push rod stretches out and draws back to enable the fourth straight gear and the seventh straight gear to be meshed with each other, the eighth transmission wheel drives the fourth electric push rod, the fourth electric push rod drives the fourth straight gear, the fourth straight gear is meshed with the seventh straight gear, the seventh straight gear drives the twelfth bevel gear to rotate, the twelfth bevel gear is then meshed with and drives the eleventh bevel gear, then the eleventh bevel gear drives the third transmission rod, the third transmission rod is then driven by and drives the ninth bevel gear, the ninth bevel gear is then meshed with and drives the tenth bevel gear, and the tenth bevel gear drives the second rotatable plate clamp to rotate; when the fourth electric push rod stretches out and draws back, the fourth straight gear is not meshed with the fifth straight gear, the sixth straight gear and the seventh straight gear at the same time, and the device keeps static.

The rear end of the first rotatable clamping plate, the front end of the first fixed clamping plate, the rear end of the second rotatable clamping plate and the front end of the second fixed clamping plate are all provided with silica gel blocks.

The first wheel and the second wheel can contact each other when moving to the leftmost side and the rightmost side.

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

in order to solve the problems that the consumption of coating materials is overlarge during the coating of the existing latex gloves, the utilization rate is extremely low, the subsequent harmless treatment cost is high, and the environmental pollution is easily caused, a glove opening device, a turnover device and an internal coating auxiliary device are designed.

1. Replace artifical expansion gloves inside then annotate the liquid immediately through gloves opening device, not only reduced the quantity of coating liquid, improved utilization efficiency, can also avoid when soaking gloves throw away into behind the coating liquid pond wrist end can be because water pressure is sealed once more, inside difficult entering of coating liquid, the phenomenon that can not reach the effect on the contrary has reduced manufacturing cost.

2. Through interior coating auxiliary device and turning device, with gloves internal seal back earlier through pushing from bottom to top, coating liquid is at the inside reciprocating flow of gloves, makes gloves internal surface can both fully contact with coating liquid, then reverses the upset to gloves, further promotes coating liquid and gloves internal surface contact, improves the utilization ratio of coating liquid.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a glove opening apparatus according to the present invention;

FIG. 3 is a schematic structural diagram of the turning device of the present invention;

FIG. 4 is a schematic view of the structure of the undercoating assisting device of the present invention.

The labels in the figures are: 1-footing, 2-bottom plate, 3-pedestal, 4-collecting box, 5-top plate, 6-liquid air double-port machine, 7-glove opening device, 8-turning device, 9-internal coating auxiliary device, 10-control screen, 701-motor, 702-first driving wheel, 703-first bevel gear, 704-second bevel gear, 705-second driving wheel, 706-third driving wheel, 707-fourth driving wheel, 708-fifth driving wheel, 709-first electric push rod, 7010-first straight gear, 7011-second electric push rod, 7012-second straight gear, 7013-sixth driving wheel, 7014-seventh driving wheel, 7015-third electric push rod, 7016-third straight gear, 7017-first internal gear, 7018-first straight screw, 7019-first transmission frame, 7020-first reverse thread screw, 7021-second transmission frame, 7022-second reverse thread screw, 7023-second positive thread screw, 7024-second internal gear, 7025-first transmission plate, 7026-second transmission plate, 7027-third reverse thread screw, 7028-third positive thread screw, 7029-third internal gear, 7030-third transmission plate, 7031-fourth transmission plate, 801-eighth transmission wheel, 802-fourth electric push rod, 803-fourth spur gear, 804-fifth spur gear, 805-third bevel gear, 806-fourth bevel gear, 807-first transmission rod, 808-first rotation disk, 809-first disk sleeve, 8010-fifth bevel gear, 8011-sixth bevel gear, 8012-first rotatable plate, 8013-first fixed jaw, 8014-second rotating disc, 8015-second disc holder, 8016-second driving lever, 8017-seventh bevel gear, 8018-eighth bevel gear, 8019-sixth spur gear, 8020-third driving lever, 8021-ninth bevel gear, 8022-tenth bevel gear, 8023-second rotatable jaw, 8024-second fixed jaw, 8025-eleventh bevel gear, 8026-twelfth bevel gear, 8027-seventh spur gear, 901-ninth driving wheel, 902-tenth driving wheel, 903-thirteenth bevel gear, 904-fourteenth bevel gear, 905-eleventh driving wheel, 906-first bar holder, 907-first telescopic rotating bar, 908-first set of bar blocks, 909-first rotating wheel, 9010-first sliding bar, 9011-a first track rod, 9012-a twelfth transmission wheel, 9013-a thirteenth transmission wheel, 9014-an eighth straight gear, 9015-a ninth straight gear, 9016-a second rod sleeve, 9017-a second telescopic rotating rod, 9018-a second rod sleeve block, 9019-a second sliding rod, 9020-a second track rod, and 9021-a second rotating wheel.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A latex glove coating device is shown in figures 1-4 and comprises a bottom foot 1, a bottom plate 2, a support column 3, a collecting box 4, a top plate 5, a liquid-air double-port machine 6, a glove opening device 7, a turning device 8, an inner coating auxiliary device 9 and a control screen 10; the top of the bottom foot 1 is welded with the bottom plate 2; the right side of the top end of the bottom plate 2 is welded with the pillar 3; the middle of the top of the bottom plate 2 is connected with a collecting box 4; the middle right side of the top end of the bottom plate 2 is connected with a glove opening device 7; the middle rear side of the top of the bottom plate 2 is provided with a turnover device 8, and the rear side of the bottom in the turnover device 8 is connected with a glove opening device 7; an inner coating auxiliary device 9 is arranged in the middle of the top end of the bottom plate 2, the inner coating auxiliary device 9 is positioned above the collecting box 4, and the right side of the top end of the inner coating auxiliary device 9 is connected with the glove opening device 7; the top end of the pillar 3 is connected with a top plate 5, the middle part of the bottom of the top plate 5 is connected with a glove opening device 7, and the rear side of the middle part of the bottom of the top plate 5 is connected with a turnover device 8; the right middle part of the pillar 3 is provided with a control screen 10.

The glove opening device 7 includes a motor 701, a first driving wheel 702, a first bevel gear 703, a second bevel gear 704, a second driving wheel 705, a third driving wheel 706, a fourth driving wheel 707, a fifth driving wheel 708, a first electric push rod 709, a first straight gear 7010, a second electric push rod 7011, a second straight gear 7012, a sixth driving wheel 7013, a seventh driving wheel 7014, a third electric push rod 7015, a third straight gear 7016, a first internal gear 7017, a first positive thread screw rod 7018, a first driving frame 7019, a first negative thread screw rod 7020, a second driving frame 7021, a second negative thread screw rod 7022, a second positive thread screw rod 7023, a second internal gear 7024, a first driving plate 7025, a second driving plate 7026, a third negative thread screw rod 7027, a third positive thread screw rod 7028, a third internal gear 7029, a third driving plate 7030 and a fourth driving plate 7031; the left side of the motor 701 is in transmission connection with a first transmission wheel 702; the left side of the first driving wheel 702 is in transmission connection with a first bevel gear 703, and the right side of the first bevel gear 703 is connected with a motor 701; the top of the first driving wheel 702 is in driving connection with a third driving wheel 706; the left top of the first bevel gear 703 is meshed with the second bevel gear 704; the top of the second bevel gear 704 is in transmission connection with a second transmission wheel 705; the top of the third driving wheel 706 is in driving connection with a fourth driving wheel 707, and the bottom of the fourth driving wheel 707 is connected with the first driving wheel 702; the left side of the third driving wheel 706 is in driving connection with a first electric push rod 709; the top of the fourth driving wheel 707 is in driving connection with the fifth driving wheel 708, and the bottom of the fifth driving wheel 708 is connected with the first driving wheel 702; the left side of the fourth driving wheel 707 is in driving connection with a second electric push rod 7011; the left side of the fifth driving wheel 708 is in driving connection with a sixth driving wheel 7013; the left side of the first electric push rod 709 is in transmission connection with a first straight gear 7010; a second internal gear 7024 is provided to the left of the first straight gear 7010; the left side of the second electric push rod 7011 is in transmission connection with a second spur gear 7012; a first internal gear 7017 is provided to the left of the second spur gear 7012; the bottom of the sixth driving wheel 7013 is in driving connection with a seventh driving wheel 7014; the right side of the seventh driving wheel 7014 is in driving connection with a third electric push rod 7015; the right side of the third electric push rod 7015 is in transmission connection with a third spur gear 7016; a third internal gear 7029 is provided to the right of the third spur gear 7016; the left side of the first internal gear 7017 is in transmission connection with a first positive thread screw 7018; the left side of the outer surface of the first positive thread lead screw 7018 is in transmission connection with a first transmission frame 7019; the left side of the first positive thread lead screw 7018 is in transmission connection with a first negative thread lead screw 7020; the left bottom in the first transmission frame 7019 is in transmission connection with a second reverse thread screw 7022; the right bottom inside the first transmission frame 7019 is in transmission connection with a second positive thread lead screw 7023, the left side of the second positive thread lead screw 7023 is connected with a second reverse thread lead screw 7022, and the right side of the second positive thread lead screw 7023 is connected with a second internal gear 7024; the right side of the outer surface of the first reverse thread screw 7020 is in transmission connection with a second transmission frame 7021; the left bottom of the second transmission frame 7021 is in transmission connection with a third reverse thread lead screw 7027, and the left side of the third reverse thread lead screw 7027 is connected with a third internal gear 7029; the right bottom inside the second transmission frame 7021 is in transmission connection with a third positive thread lead screw 7028, and the left side of the third positive thread lead screw 7028 is connected with a third reverse thread lead screw 7027; the right side of the outer surface of the second reverse thread screw 7022 is in transmission connection with a first transmission plate 7025; the left side of the outer surface of the second positive thread screw 7023 is in transmission connection with a second transmission plate 7026; the right side of the outer surface of the third reverse thread screw 7027 is in transmission connection with a third transmission plate 7030; the left side of the outer surface of the third positive thread screw 7028 is in transmission connection with a fourth transmission plate 7031; the left rear side of the second transmission wheel 705 is connected with the turnover device 8; the left side of the third drive wheel 706 is connected to the inner coating aid 9.

The turning device 8 comprises an eighth driving wheel 801, a fourth electric push rod 802, a fourth spur gear 803, a fifth spur gear 804, a third bevel gear 805, a fourth bevel gear 806, a first driving rod 807, a first rotating disk 808, a first disk sleeve 809, a fifth bevel gear 8010, a sixth bevel gear 8011, a first rotatable clamping plate 8012, a first fixed clamping plate 8013, a second rotating disk 8014, a second disk sleeve 8015, a second driving rod 8016, a seventh bevel gear 8017, an eighth bevel gear 8018, a sixth spur gear 8019, a third driving rod 8020, a ninth bevel gear 8021, a tenth bevel gear 8022, a second rotatable clamping plate 8023, a second fixed clamping plate 8024, an eleventh bevel gear 8025, a twelfth bevel gear 8026 and a seventh spur gear 8027; the top of the eighth driving wheel 801 is in driving connection with a fourth electric push rod 802; the top of the fourth electric push rod 802 is in transmission connection with a fourth spur gear 803; the left side of the fourth straight gear 803 is meshed with the fifth straight gear 804; the top of the fifth straight gear 804 is in transmission connection with a third bevel gear 805; the bottom left side of the third bevel gear 805 is meshed with a fourth bevel gear 806; the left side of the fourth bevel gear 806 is in transmission connection with a first transmission rod 807; the right side of the outer surface of the first transmission rod 807 is rotationally connected with a first rotating disk 808; the left side of the outer surface of the first driving rod 807 is rotatably connected with the second rotary disk 8014; the left side of the first transmission rod 807 is in transmission connection with a fifth bevel gear 8010; the side wall of the first rotating disc 808 is in sliding connection with a first disc sleeve 809; the left bottom of the fifth bevel gear 8010 is engaged with the sixth bevel gear 8011; the bottom of the outer surface of the sixth bevel gear 8011 is in transmission connection with a first rotatable clamping plate 8012; the bottom of the sixth bevel gear 8011 is rotatably connected to the first stationary jaw 8013, and the right side of the first stationary jaw 8013 is connected to the second rotary disc 8014; the side wall of the second rotary disk 8014 is slidably connected to the second disk sleeve 8015; the right middle portion of the second rotary disk 8014 is drivingly connected to the second driving lever 8016, and the right side of the outer surface of the second driving lever 8016 is connected to the first rotary disk 808; the middle bottom of the second rotary disk 8014 is in driving connection with the third driving rod 8020, and the left side of the outer surface of the third driving rod 8020 is connected with the first rotary disk 808; the right side of the second transmission rod 8016 is in transmission connection with a seventh bevel gear 8017; the top right part of the seventh bevel gear 8017 is engaged with the eighth bevel gear 8018; the bottom of the eighth bevel gear 8018 is in transmission connection with a sixth spur gear 8019; the left side of the third transmission rod 8020 is in transmission connection with a ninth bevel gear 8021; the right side of the third transmission rod 8020 is in transmission connection with an eleventh bevel gear 8025; the left bottom of the ninth bevel gear 8021 is engaged with a tenth bevel gear 8022; the bottom of the outer surface of the tenth bevel gear 8022 is in transmission connection with a second rotatable plate clamp 8023; the bottom of the tenth bevel gear 8022 is rotatably connected to a second fixed plate clip 8024, and the right side of the second fixed plate clip 8024 is connected to a second rotating disk 8014; the right top of the eleventh bevel gear 8025 is engaged with the twelfth bevel gear 8026; the bottom of the twelfth bevel gear 8026 is in transmission connection with a seventh spur gear 8027; the eighth transmission wheel 801 is connected to the second transmission wheel 705 on the front left side.

The internal coating auxiliary device 9 comprises a ninth driving wheel 901, a tenth driving wheel 902, a thirteenth bevel gear 903, a fourteenth bevel gear 904, an eleventh driving wheel 905, a first rod sleeve 906, a first telescopic rotating rod 907, a first rod sleeve 908, a first rotating wheel 909, a first sliding rod 9010, a first track rod 9011, a twelfth driving wheel 9012, a thirteenth driving wheel 9013, an eighth spur gear 9014, a ninth spur gear 9015, a second rod sleeve 9016, a second telescopic rotating rod 9017, a second rod sleeve 9018, a second sliding rod 9019, a second track rod 9020 and a second rotating wheel 9021; the bottom of the ninth driving wheel 901 is in transmission connection with a tenth driving wheel 902; the left side of a tenth driving wheel 902 is in driving connection with a thirteenth bevel gear 903; the left rear side of a thirteenth bevel gear 903 is meshed with a fourteenth bevel gear 904; the rear end axle center of the fourteenth bevel gear 904 is in transmission connection with the left lower side and an eleventh transmission wheel 905; the rear end axle center of the eleventh driving wheel 905 is in transmission connection with the first rod sleeve 906; the left lower side of an eleventh driving wheel 905 is in driving connection with a twelfth driving wheel 9012; the middle part in the first rod sleeve 906 is in transmission connection with a first telescopic rotating rod 907; the rear right side of the first telescopic rotating rod 907 is in transmission connection with a first sleeve rod block 908; the left side of the first socket piece 908 is connected to a first runner 909; the middle part in the first sleeve rod block 908 is in transmission connection with a first sliding rod 9010; the bottom in the first sliding rod 9010 is connected with the first rail rod 9011 in a sliding manner; the left side of the twelfth driving wheel 9012 is in transmission connection with a thirteenth driving wheel 9013; the left upper side of a thirteenth transmission wheel 9013 is in transmission connection with an eighth straight gear 9014; the upper right side of the eighth spur gear 9014 is meshed with the ninth spur gear 9015; the axle center of the rear end of the ninth straight gear 9015 is in transmission connection with the second rod sleeve 9016; the inner middle part of the second rod sleeve 9016 is in transmission connection with the second telescopic rotating rod 9017; the rear left side of the second telescopic rotating rod 9017 is in transmission connection with a second sleeve rod block 9018; the middle part in the second sleeve rod block 9018 is in transmission connection with a second sliding rod 9019; the right side of the second sleeve rod block 9018 is connected with a second rotating wheel 9021; the bottom in the second sliding rod 9019 is connected with the second track rod 9020 in a sliding manner; the right side of the ninth transmission wheel 901 is connected with a third transmission wheel 706.

When the fourth electric push rod 802 stretches and retracts to enable the fourth straight gear 803 and the fifth straight gear 804 to be meshed with each other, the eighth transmission wheel 801 transmits the fourth electric push rod 802, the fourth electric push rod 802 transmits the fourth straight gear 803, the fourth straight gear 803 transmits the fifth straight gear 804 in a meshed manner, the fifth straight gear 804 drives the third bevel gear 805 to rotate, the third bevel gear 805 transmits the fourth bevel gear 806 in a meshed manner, the fourth bevel gear 806 transmits the first transmission rod 807 in a meshed manner, the first transmission rod 807 drives the fifth bevel gear 8010 to rotate, the fifth bevel gear 8010 transmits the sixth bevel gear 8011 in a meshed manner, and the sixth bevel gear 8011 drives the first rotatable clamping plate 8012 to rotate; when fourth electric push rod 802 stretches and retracts to enable fourth straight gear 803 and sixth straight gear 8019 to be meshed with each other, eighth transmission wheel 801 transmits fourth electric push rod 802, fourth electric push rod 802 transmits fourth straight gear 803, fourth straight gear 803 is meshed with sixth straight gear 8019, sixth straight gear 8019 drives eighth bevel gear 8018 to rotate, eighth bevel gear 8018 is meshed with seventh bevel gear 8017, seventh bevel gear 8017 transmits second transmission rod 8016, and second transmission rod 8016 transmits first rotary disc 808 and second rotary disc 8014 to rotate at the same time; when the fourth electric push rod 802 stretches to enable the fourth straight gear 803 and the seventh straight gear 8027 to be meshed with each other, the eighth transmission wheel 801 transmits the fourth electric push rod 802, the fourth electric push rod 802 transmits the fourth straight gear 803, the fourth straight gear 803 transmits the seventh straight gear 8027 in a meshed manner, the seventh straight gear 8027 drives the twelfth bevel gear 8026 to rotate, the twelfth bevel gear 8026 then transmits the eleventh bevel gear 8025 in a meshed manner, the eleventh bevel gear 8025 then drives the third transmission rod 8020, the third transmission rod 8020 then transmits the ninth bevel gear 8021, the ninth bevel gear 8021 then transmits the tenth bevel gear 8022 in a meshed manner, and the tenth bevel gear 8022 then drives the second rotatable plate 8023 to rotate; when fourth electric push rod 802 is extended and retracted so that fourth spur gear 803 is simultaneously disengaged from fifth spur gear 804, sixth spur gear 8019 and seventh spur gear 8027, the device remains stationary.

The rear end of the first rotatable clamping plate 8012, the front end of the first fixed clamping plate 8013, the rear end of the second rotatable clamping plate 8023 and the front end of the second fixed clamping plate 8024 are all provided with silica gel blocks.

The first wheel 909 and the second wheel 9021 can contact each other when they move to the leftmost side and the rightmost side.

The working principle is as follows: when the device is used, the latex glove coating device is firstly installed at a place needing to be used, the power supply and the coating liquid guide pipe are externally connected, the control screen 10 is started and controls the device, the glove opening device 7 is firstly controlled to clamp the back and the two sides of the palm of the opening at the wrist end of the latex glove, and then the opening is expanded in the opposite direction. Because the interior of the newly manufactured latex glove is very rough, the interior of the latex glove is separated from a mould and is easily attached together after being contacted with each other, in order to avoid liquid overflow caused by incomplete opening of the interior during liquid injection, firstly, air is blown into the latex glove through the liquid-air double-port machine 6 to ensure that the interior of the latex glove is completely expanded, then, the air blowing is stopped, then, coating liquid is injected again, the liquid-air double-port machine 6 is stopped after the liquid injection reaches a certain amount, then, the overturning device 8 is controlled to simultaneously clamp the finger end and the wrist end of the latex glove, at the moment, a closed space is formed inside the latex glove, then, the latex glove is released by controlling the glove opening device 7, then, the inner coating auxiliary device 9 is controlled to roll and extrude the latex glove from bottom to top, the coating liquid at the bottom in the glove flows to the upper part of the glove, and under the condition that the interior of the latex glove is not filled with the coating, the utilization rate of the coating liquid is improved, and the waste is reduced. After rolling extrusion, the internal coating auxiliary device 9 is stopped, the turning device 8 is controlled to rotate continuously, liquid in the glove can flow randomly in the glove again, and all parts in the glove can be fully contacted with coating liquid. After rolling for a plurality of circles, the turning device 8 is controlled to stop and the gloves are in a state that the finger ends face upwards and the wrist ends face downwards, then the clamps at the wrist sections are opened firstly to discharge the internal liquid, the adhesion work of the coating liquid is completed, then the clamps at the finger ends are opened to take down the gloves for subsequent drying treatment, and the coating treatment inside the gloves can be completed. The device is simple to use, compares in simple directness and carries out whole soaking treatment to gloves, and the device not only can make full use of coating liquid, reduction in production cost, and the coating effect is better moreover, and the gloves wrist end can be because hydraulic pressure is sealed earlier when adopting general whole soaking method, and inside the coating liquid was more difficult to get into gloves, the effect is worse, so the device is worth using widely.

When the coating liquid is filled inside, the motor 701 simultaneously drives the first driving wheel 702 and the first bevel gear 703, the first bevel gear 703 is engaged with and drives the second bevel gear 704, the second bevel gear 704 drives the second driving wheel 705, and the second driving wheel 705 is used as a power source of the turnover device 8; the first driving wheel 702 drives the third driving wheel 706, the fourth driving wheel 707 and the fifth driving wheel 708 to rotate at the same time, the third driving wheel 706 drives the first electric push rod 709, then the first electric push rod 709 drives the first straight gear 7010, then the first electric push rod 709 is controlled to stretch and retract so that the first straight gear 7010 is meshed with the second internal gear 7024, the first straight gear 7010 drives the second internal gear 7024, then the second internal gear 7024 drives the second reverse thread lead screw 7022 and the second normal thread lead screw 7023 to rotate at the same time, then the second reverse thread lead screw 7022 drives the first driving plate 7025 to move left, the second normal thread lead screw 7023 drives the second driving plate 7026 to move right, and then the back side of the opening at the wrist end of the glove is placed between the first driving plate 7025 and the second driving plate 7026; meanwhile, the fifth driving wheel 708 drives the sixth driving wheel 7013, the sixth driving wheel 7013 drives the seventh driving wheel 7014 to rotate, the seventh driving wheel 7014 drives the third electric push rod 7015, the third electric push rod 7015 then drives the third spur gear 7016, then the third spur gear 7016 is meshed with the third internal gear 7029 when the third electric push rod 7015 is controlled to extend and retract, the third spur gear 7016 drives the third internal gear 7029, the third internal gear 7029 then simultaneously drives the third reverse-thread lead screw 7027 and the third normal-thread lead screw 7028 to rotate, then the third reverse-thread lead screw 7027 drives the third driving plate 7030 to move rightwards, the third normal-thread lead screw 7028 drives the fourth driving plate 7031 to move rightwards, and then the palm side of the wrist end opening of the glove is placed between the third driving plate 7030 and the fourth driving plate 7031; and then the motor 701 is reversed, and the first driving plate 7025, the second driving plate 7026, the third driving plate 7030 and the fourth driving plate 7031 approach to each other in pairs to clamp the glove, so that the initial glove fixing is completed. Then the first electric push rod 709 and the third electric push rod 7015 are controlled to extend and retract to enable the first straight gear 7010, the second internal gear 7024 and the third straight gear 7016 to be disengaged from the third internal gear 7029, then the second electric push rod 7011 is controlled to extend and retract to enable the second straight gear 7012 and the first internal gear 7017 to be engaged with each other, the fifth transmission wheel 708 transmits the second electric push rod 7011, then the second electric push rod 7011 drives the second straight gear 7012, the second straight gear 7012 is then engaged with and transmits the first internal gear 7017, the first internal gear 7017 simultaneously transmits the first positive thread screw 7018 and the first reverse thread screw 7020, the first positive thread screw 7018 transmits the first transmission frame 7019 to move rightwards, the first reverse thread screw 7020 transmits the second transmission frame 7021 to move leftwards, finally, the wrist port of the latex glove is opened, and the coating liquid can be injected into the wrist port. Still inside expanding gloves through the manual work in a lot of producers, then directly throw into gloves and soak in the coating liquid pool, expand inside not only wastes time and energy like this, and gloves throw into coating liquid pool back wrist end can be sealed once more because water pressure, coating liquid is hardly got into inside, can not reach the effect on the contrary, the device can replace the manual work completely to carry out the opening to gloves and annotate the liquid operation, not only efficiency opening expansion efficiency is higher, and coating liquid utilization ratio is higher, the waste of coating liquid has been reduced, the production cost is reduced, and the device can form the linkage with turning device 8 and interior coating auxiliary device 9, be worth using widely.

When gloves are fixed and turned over, the eighth driving wheel 801 drives the fourth electric pushing rod 802, the fourth electric pushing rod 802 drives the fourth straight gear 803 to rotate, the fourth straight gear 803 is meshed with and drives the fifth straight gear 804, the fifth straight gear 804 drives the third bevel gear 805, the third bevel gear 805 is then meshed with and drives the fourth bevel gear 806, the fourth bevel gear 806 drives the first driving rod 807 to rotate, the first driving rod 807 is then driven to drive the fifth bevel gear 8010, the fifth bevel gear 8010 is meshed with and drives the sixth bevel gear 8011, and the sixth bevel gear 8011 drives the first rotatable clamping plate 8012 to rotate forwards and open; then the fourth electric push rod 802 is controlled to extend and contract to make the fourth straight gear 803 rotate to be meshed with the seventh straight gear 8027, the fourth straight gear 803 is meshed with and drives the seventh straight gear 8027, then the seventh straight gear 8027 drives the twelfth bevel gear 8026, the twelfth bevel gear 8026 is meshed with and drives the eleventh bevel gear 8025, the eleventh bevel gear 8025 drives the third driving rod 8020 to rotate, the third driving rod 8020 drives the ninth bevel gear 8021, the ninth bevel gear 8021 is meshed with and drives the tenth bevel gear 8022, the tenth bevel gear 8022 drives the second rotatable plate holder 8023 to rotate forwards and open, after the first rotatable plate 8012 and the second rotatable plate holder 8023 are both opened, the glove is also clamped, expanded and injected by the glove opening device 7, when the motor 701 is reversed, the eighth driving wheel 801 is reversed, the fourth straight gear 803 is meshed with and drives the seventh straight gear 8027, then the seventh straight gear 8027 drives the twelfth bevel gear 8026, the twelfth bevel gear 8026 is meshed with and drives the eleventh bevel gear 8025, eleventh bevel gear 8025 drives third driving rod 8020 to rotate, third driving rod 8020 drives ninth bevel gear 8021, ninth bevel gear 8021 is meshed with and drives tenth bevel gear 8022, tenth bevel gear 8022 drives second rotatable plate holder 8023 to rotate backwards to clamp the finger end of the glove, then fourth electric push rod 802 is controlled to extend and retract so that fourth spur gear 803 and fifth spur gear 804 are meshed with and drive fifth spur gear 804, fifth spur gear 804 drives third bevel gear 805, third bevel gear 805 is then meshed with and drives fourth bevel gear 806, fourth bevel gear 806 drives first driving rod to rotate, first driving rod 807 is then driven to drive fifth bevel gear 8010, fifth bevel gear 8010 is meshed with and drives sixth bevel gear 8011, sixth bevel gear 8011 drives first rotatable plate 8012 to rotate backwards to clamp the wrist portion of the glove. Then, the glove opening device 7 is controlled to release the glove, and then the fourth electric push rod 802 is controlled to extend and retract to enable the fourth straight-tooth gear 803 to rotate and to be meshed with the sixth straight-tooth gear 8019, the fourth straight-tooth gear 803 drives the sixth straight-tooth gear 8019, the sixth straight-tooth gear 8019 drives the eighth bevel gear 8018 to rotate, the eighth bevel gear 8018 is meshed with the seventh bevel gear 8017, the seventh bevel gear 8017 further drives the second transmission rod 8016 to rotate, then the second transmission rod 8016 drives the first rotating disc 808 and the second rotating disc 8014 to rotate in the first disc sleeve 809 and the second disc sleeve 8015 respectively, and the second rotating disc 8014 drives the first fixed clamping plate 8013 and the second fixed plate clamp 8024 fixedly connected with the second rotating disc 8014 to rotate together after rotating, and then drives the clamped and fixed glove to turn. The device is simple to use, constantly overturn through control gloves, gloves are inside because of the centre gripping forms the enclosure space, at the in-process of upset, the coating liquid of inside injection can be at the inside round trip flow of gloves, inside main part of contact with the staff can both be fully soaked by the coating liquid when letting gloves use, erode, fully glue the coating liquid, improve the utilization ratio of coating liquid, compare in general immersion method, the device can improve the utilization ratio undoubtedly greatly, reduce the waste of coating liquid, and the production cost is reduced, reduce the cost of handling abandonment coating liquid, pollution and destruction to the environment are littleer, environmental protection more, and the device can form the linkage with gloves opening device 7 and interior coating auxiliary device 9, be worth using widely.

When the auxiliary coating is performed, the interior of the glove is sealed by the turning device 8, then the ninth driving wheel 901 drives the tenth driving wheel 902, the tenth driving wheel 902 drives the thirteenth bevel gear 903 to rotate, the thirteenth bevel gear 903 is engaged with and drives the fourteenth bevel gear 904, the fourteenth bevel gear 904 drives the eleventh driving wheel 905, the eleventh driving wheel 905 simultaneously drives the first sleeve 906 and the twelfth driving wheel 9012, the first sleeve 906 drives the first telescopic rotating rod 907 to rotate, the first telescopic rotating rod 907 first drives the first sleeve block 908 to slide to the bottom of the first sliding rod 9010, then the first telescopic rotating rod 907 continues to rotate and drives the first sleeve block 908, the first sleeve block 908 drives the first sliding rod 9010 to slide to the leftmost side of the first rail 9011, at this moment, the first rotating wheel 909 has contacted with the bottom of the outer surface of the glove, then the first sleeve block 908 drives the first rotating wheel 909 to continue to slide to the top of the first sliding rod 9010 as the first telescopic rotating rod 907 continues to rotate, then the first sleeve rod block 908 continues to drive the first sliding rod 9010 to slide and return to the rightmost side of the first track rod 9011, and a cycle is completed; on the other hand, the twelfth transmission wheel 9012 transmits the thirteenth transmission wheel 9013, the thirteenth transmission wheel 9013 transmits the eighth spur gear 9014, the eighth spur gear 9014 is engaged with and transmits the ninth spur gear 9015, the eighth straight gear 9014 and the ninth straight gear 9015 are meshed with each other to change the steering direction, the ninth straight gear 9015 drives the second telescopic rotating rod 9017 to rotate, the second telescopic rotating rod 9017 drives the second sleeve block 9018, the second sleeve block 9018 firstly slides to the bottom along the second sliding rod 9019, then the second sleeve rod block 9018 drives the second sliding rod 9019 to slide to the rightmost side along the second track rod 9020, at this time, the second rotating wheel 9021 is in contact with the outer surface of the glove, then, under the transmission of the second telescopic rotating rod 9017, the second sleeve rod block 9018 slides to the top of the second sliding rod 9019, and then the second sleeve rod block 9018 drives the second sliding rod 9019 to slide to the leftmost side of the second rail rod 9020 along the second rail rod 9020, thereby completing one cycle. The device, it is simple to use, can assist and scribble whole gloves with coating liquid inside, even use less coating liquid also can reach predetermined effect, improved coating liquid's utilization ratio, reduced coating liquid's waste, reduced manufacturing cost to the device can also form the linkage with gloves opening device 7 and turning device 8, is worth using widely.

When the fourth electric push rod 802 stretches and retracts to enable the fourth straight gear 803 and the fifth straight gear 804 to be meshed with each other, the eighth transmission wheel 801 transmits the fourth electric push rod 802, the fourth electric push rod 802 transmits the fourth straight gear 803, the fourth straight gear 803 transmits the fifth straight gear 804 in a meshed manner, the fifth straight gear 804 drives the third bevel gear 805 to rotate, the third bevel gear 805 transmits the fourth bevel gear 806 in a meshed manner, the fourth bevel gear 806 transmits the first transmission rod 807 in a meshed manner, the first transmission rod 807 drives the fifth bevel gear 8010 to rotate, the fifth bevel gear 8010 transmits the sixth bevel gear 8011 in a meshed manner, and the sixth bevel gear 8011 drives the first rotatable clamping plate 8012 to rotate; when fourth electric push rod 802 stretches and retracts to enable fourth straight gear 803 and sixth straight gear 8019 to be meshed with each other, eighth transmission wheel 801 transmits fourth electric push rod 802, fourth electric push rod 802 transmits fourth straight gear 803, fourth straight gear 803 is meshed with sixth straight gear 8019, sixth straight gear 8019 drives eighth bevel gear 8018 to rotate, eighth bevel gear 8018 is meshed with seventh bevel gear 8017, seventh bevel gear 8017 transmits second transmission rod 8016, and second transmission rod 8016 transmits first rotary disc 808 and second rotary disc 8014 to rotate at the same time; when the fourth electric push rod 802 stretches to enable the fourth straight gear 803 and the seventh straight gear 8027 to be meshed with each other, the eighth transmission wheel 801 transmits the fourth electric push rod 802, the fourth electric push rod 802 transmits the fourth straight gear 803, the fourth straight gear 803 transmits the seventh straight gear 8027 in a meshed manner, the seventh straight gear 8027 drives the twelfth bevel gear 8026 to rotate, the twelfth bevel gear 8026 then transmits the eleventh bevel gear 8025 in a meshed manner, the eleventh bevel gear 8025 then drives the third transmission rod 8020, the third transmission rod 8020 then transmits the ninth bevel gear 8021, the ninth bevel gear 8021 then transmits the tenth bevel gear 8022 in a meshed manner, and the tenth bevel gear 8022 then drives the second rotatable plate 8023 to rotate; when fourth electric push rod 802 is extended and retracted so that fourth spur gear 803 is simultaneously disengaged from fifth spur gear 804, sixth spur gear 8019 and seventh spur gear 8027, the device remains stationary. The operation of the whole device is controlled by the extension and contraction of the fourth electric push rod 802, different functions are selected, and the flexibility of the device is improved.

The rear end of the first rotatable clamping plate 8012, the front end of the first fixed clamping plate 8013, the rear end of the second rotatable clamping plate 8023 and the front end of the second fixed clamping plate 8024 are all provided with silica gel blocks. The friction force is improved through the silica gel block, and the phenomenon of skidding caused by overweight of coating liquid is prevented.

The first wheel 909 and the second wheel 9021 can contact each other when they move to the leftmost side and the rightmost side. In operation, the first wheel 909 and the second wheel 9021 contact both side surfaces of the glove at the bottom of the glove, and then squeeze the glove, and in the upward movement process after squeezing, the coating liquid inside the glove is pushed upward together, so that the coating liquid fills the interior of the glove, and the glove plays a role of auxiliary coating.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A latex glove coating device comprises bottom feet, a bottom plate, a supporting column, a collecting box, a top plate and a liquid-air double-port machine, and is characterized by further comprising a glove opening device, a turnover device, an inner coating auxiliary device and a control screen; the top of the bottom foot is welded with the bottom plate; the right side of the top end of the bottom plate is welded with the strut; the middle part of the top of the bottom plate is connected with the collecting box; the middle right side of the top end of the bottom plate is connected with the glove opening device; the middle rear side of the top of the bottom plate is provided with a turnover device, and the rear side of the bottom in the turnover device is connected with the glove opening device; an inner coating auxiliary device is arranged in the middle of the top end of the bottom plate and is positioned above the collecting box, and the right side of the top end of the inner coating auxiliary device is connected with the glove opening device; the top end of the strut is connected with the top plate, the middle part of the bottom of the top plate is connected with the glove opening device, and the rear side of the middle part of the bottom of the top plate is connected with the turnover device; the right middle part of the pillar is provided with a control screen.

2. The latex glove coating apparatus according to claim 1, wherein the glove opening apparatus comprises a motor, a first driving wheel, a first bevel gear, a second driving wheel, a third driving wheel, a fourth driving wheel, a fifth driving wheel, a first electric push rod, a first straight gear, a second electric push rod, a second straight gear, a sixth driving wheel, a seventh driving wheel, a third electric push rod, a third straight gear, a first internal gear, a first positive thread screw, a first driving frame, a first negative thread screw, a second driving frame, a second negative thread screw, a second positive thread screw, a second internal gear, a first driving plate, a second driving plate, a third negative thread screw, a third positive thread screw, a third internal gear, a third driving plate and a fourth driving plate; the left side of the motor is in transmission connection with the first transmission wheel; the left side of the first transmission wheel is in transmission connection with a first bevel gear, and the right side of the first bevel gear is connected with a motor; the top of the first driving wheel is in transmission connection with a third driving wheel; the left top of the first bevel gear is meshed with the second bevel gear; the top of the second bevel gear is in transmission connection with a second transmission wheel; the top of the third driving wheel is in transmission connection with a fourth driving wheel, and the bottom of the fourth driving wheel is connected with the first driving wheel; the left side of the third driving wheel is in transmission connection with the first electric push rod; the top of the fourth driving wheel is in transmission connection with a fifth driving wheel, and the bottom of the fifth driving wheel is connected with the first driving wheel; the left side of the fourth driving wheel is in transmission connection with a second electric push rod; the left side of the fifth driving wheel is in transmission connection with the sixth driving wheel; the left side of the first electric push rod is in transmission connection with the first straight gear; a second internal gear is arranged on the left of the first straight gear; the left side of the second electric push rod is in transmission connection with a second straight gear; a first internal gear is arranged on the left of the second straight gear; the bottom of the sixth driving wheel is in transmission connection with the seventh driving wheel; the right side of the seventh driving wheel is in transmission connection with the third electric push rod; the right side of the third electric push rod is in transmission connection with a third straight gear; a third inner gear is arranged on the right of the third straight gear; the left side of the first internal gear is in transmission connection with a first positive thread screw rod; the left side of the outer surface of the first positive thread screw rod is in transmission connection with the first transmission frame; the left side of the first positive thread screw rod is in transmission connection with the first negative thread screw rod; the left bottom in the first transmission frame is in transmission connection with the second thread-reversing screw rod; the right bottom in the first transmission frame is in transmission connection with a second positive thread screw rod, the left side of the second positive thread screw rod is connected with a second reverse thread screw rod, and the right side of the second positive thread screw rod is connected with a second internal gear; the right side of the outer surface of the first reverse thread screw rod is in transmission connection with the second transmission frame; the left bottom in the second transmission frame is in transmission connection with a third reverse thread screw rod, and the left side of the third reverse thread screw rod is connected with a third internal gear; the right bottom in the second transmission frame is in transmission connection with a third positive thread screw rod, and the left side of the third positive thread screw rod is connected with a third reverse thread screw rod; the right side of the outer surface of the second reverse thread screw rod is in transmission connection with the first transmission plate; the left side of the outer surface of the second positive thread screw rod is in transmission connection with a second transmission plate; the right side of the outer surface of the third reverse thread screw rod is in transmission connection with a third transmission plate; the left side of the outer surface of the third positive thread screw rod is in transmission connection with a fourth transmission plate; the left rear side of the second driving wheel is connected with the turnover device; the left side of the third driving wheel is connected with an inner coating auxiliary device.

3. The latex glove coating apparatus according to claim 2, wherein the inverting means comprises an eighth driving wheel, a fourth electric push rod, a fourth spur gear, a fifth spur gear, a third bevel gear, a fourth bevel gear, a first driving lever, a first rotating disk, a first disk sleeve, a fifth bevel gear, a sixth bevel gear, a first rotatable jaw, a first fixed jaw, a second rotating disk, a second disk sleeve, a second driving lever, a seventh bevel gear, an eighth bevel gear, a sixth spur gear, a third driving lever, a ninth bevel gear, a tenth bevel gear, a second rotatable jaw, a second fixed jaw, an eleventh bevel gear, a twelfth bevel gear and a seventh spur gear; the top of the eighth driving wheel is in transmission connection with a fourth electric push rod; the top of the fourth electric push rod is in transmission connection with a fourth straight gear; the left side of the fourth straight gear is meshed with the fifth straight gear; the top of the fifth straight gear is in transmission connection with a third bevel gear; the left side of the bottom of the third bevel gear is meshed with the fourth bevel gear; the left side of the fourth bevel gear is in transmission connection with the first transmission rod; the middle right side of the outer surface of the first transmission rod is rotationally connected with the first rotating disc; the left side of the outer surface of the first transmission rod is rotationally connected with the second rotating disk; the left side of the first transmission rod is in transmission connection with a fifth bevel gear; the side wall of the first rotating disc is in sliding connection with the first disc sleeve; the left bottom of the fifth bevel gear is meshed with the sixth bevel gear; the bottom of the outer surface of the sixth bevel gear is in transmission connection with the first rotatable clamping plate; the bottom of the sixth bevel gear is rotationally connected with the first fixed splint, and the right side of the first fixed splint is connected with the second rotating disc; the side wall of the second rotating disk is in sliding connection with the second disk sleeve; the right middle part of the second rotating disc is in transmission connection with a second transmission rod, and the right side in the outer surface of the second transmission rod is connected with the first rotating disc; the middle bottom in the second rotating disc is in transmission connection with a third transmission rod, and the middle left side in the outer surface of the third transmission rod is connected with the first rotating disc; the right side of the second transmission rod is in transmission connection with a seventh bevel gear; the right top of the seventh bevel gear is meshed with the eighth bevel gear; the bottom of the eighth bevel gear is in transmission connection with a sixth straight gear; the left side of the third transmission rod is in transmission connection with a ninth bevel gear; the right side of the third transmission rod is in transmission connection with an eleventh bevel gear; the left bottom of the ninth bevel gear is meshed with the tenth bevel gear; the bottom of the outer surface of the tenth bevel gear is in transmission connection with a second rotatable plate clamp; the bottom of the tenth bevel gear is rotationally connected with the second fixed plate clamp, and the right side of the second fixed plate clamp is connected with the second rotating disc; the right top of the eleventh bevel gear is meshed with the twelfth bevel gear; the bottom of the twelfth bevel gear is in transmission connection with a seventh straight gear; the left front side of the eighth driving wheel is connected with the second driving wheel.

4. The latex glove coating apparatus according to claim 3, wherein the inner coating auxiliary device comprises a ninth driving wheel, a tenth driving wheel, a thirteenth bevel gear, a fourteenth bevel gear, an eleventh driving wheel, a first rod sleeve, a first telescopic rotating rod, a first rod block, a first rotating wheel, a first sliding rod, a first track rod, a twelfth driving wheel, a thirteenth driving wheel, an eighth spur gear, a ninth spur gear, a second rod sleeve, a second telescopic rotating rod, a second rod block, a second sliding rod, a second track rod and a second rotating wheel; the bottom of the ninth driving wheel is in transmission connection with the tenth driving wheel; the left side of the tenth driving wheel is in transmission connection with a thirteenth bevel gear; the left rear side of the thirteenth bevel gear is meshed with the fourteenth bevel gear; the shaft center at the rear end of the fourteenth bevel gear is in transmission connection with the left lower side and the eleventh transmission wheel; the rear end axle center of the eleventh transmission wheel is in transmission connection with the first rod sleeve; the left lower side of the eleventh driving wheel is in transmission connection with the twelfth driving wheel; the middle part in the first rod sleeve is in transmission connection with the first telescopic rotating rod; the rear right side of the first telescopic rotating rod is in transmission connection with the first sleeve rod block; the left side of the first sleeve rod block is connected with a first rotating wheel; the middle part in the first sleeve rod block is in transmission connection with the first sliding rod; the inner bottom of the first sliding rod is in sliding connection with the first track rod; the left side of the twelfth driving wheel is in transmission connection with a thirteenth driving wheel; the left upper side of the thirteenth transmission wheel is in transmission connection with the eighth straight gear; the right upper side of the eighth straight gear is meshed with the ninth straight gear; the axle center at the rear end of the ninth straight gear is in transmission connection with the second rod sleeve; the middle part in the second rod sleeve is in transmission connection with the second telescopic rotating rod; the rear left side of the second telescopic rotating rod is in transmission connection with the second sleeve rod block; the middle part in the second sleeve rod block is in transmission connection with the second sliding rod; the right side of the second sleeve rod block is connected with a second rotating wheel; the inner bottom of the second sliding rod is in sliding connection with the second track rod; the right side of the ninth driving wheel is connected with the third driving wheel.

5. The latex glove coating apparatus as claimed in claim 4, wherein when the fourth power push rod is extended and contracted to engage the fourth spur gear with the fifth spur gear, the eighth power transmission wheel transmits the fourth power push rod, the fourth power push rod transmits the fourth spur gear, the fourth spur gear engages the fifth spur gear, the fifth spur gear drives the third bevel gear to rotate, the third bevel gear engages the fourth bevel gear, the fourth bevel gear then transmits the first power transmission rod, the first power transmission rod drives the fifth bevel gear to rotate, the fifth bevel gear engages the sixth bevel gear, the sixth bevel gear drives the first rotatable plate to rotate; when the fourth electric push rod stretches and retracts to enable the fourth straight gear to be meshed with the sixth straight gear, the eighth transmission wheel drives the fourth electric push rod, the fourth electric push rod drives the fourth straight gear, the fourth straight gear is meshed with the sixth straight gear, the sixth straight gear drives the eighth bevel gear to rotate, the eighth bevel gear is meshed with the seventh bevel gear, the seventh bevel gear drives the second transmission rod, and the second transmission rod simultaneously drives the first rotating disc and the second rotating disc to rotate; when the fourth electric push rod stretches out and draws back to enable the fourth straight gear and the seventh straight gear to be meshed with each other, the eighth transmission wheel drives the fourth electric push rod, the fourth electric push rod drives the fourth straight gear, the fourth straight gear is meshed with the seventh straight gear, the seventh straight gear drives the twelfth bevel gear to rotate, the twelfth bevel gear is then meshed with and drives the eleventh bevel gear, then the eleventh bevel gear drives the third transmission rod, the third transmission rod is then driven by and drives the ninth bevel gear, the ninth bevel gear is then meshed with and drives the tenth bevel gear, and the tenth bevel gear drives the second rotatable plate clamp to rotate; when the fourth electric push rod stretches out and draws back, the fourth straight gear is not meshed with the fifth straight gear, the sixth straight gear and the seventh straight gear at the same time, and the device keeps static.

6. The latex glove coating apparatus as claimed in claim 5, wherein the rear end of the first rotatable plate, the front end of the first fixed plate, the rear end of the second rotatable plate and the front end of the second fixed plate are provided with a silicone block.

7. A latex glove coating apparatus as claimed in claim 6, wherein the first wheel is adapted to contact the leftmost wheel and the second wheel is adapted to contact the rightmost wheel.