CN116099809A

CN116099809A - Washing and drying integrated machine for latex glove production

Info

Publication number: CN116099809A
Application number: CN202310396471.8A
Authority: CN
Inventors: 徐帅; 王朝; 徐鹏
Original assignee: Xiongxian Gaozi Latex Products Equipment Technology Co ltd
Current assignee: Xiongxian Gaozi Latex Products Equipment Technology Co ltd
Priority date: 2023-04-14
Filing date: 2023-04-14
Publication date: 2023-05-12
Anticipated expiration: 2043-04-14
Also published as: CN116099809B

Abstract

The invention discloses a washing and drying integrated machine for latex glove production, which relates to the technical field of latex glove production equipment, wherein one end of a sealing limiting box is provided with a vacuum pump, one end of a buffer box is connected with an extraction pipe frame, the bottom end of the inner side of an exchange heat insulation box is fixedly connected with a condensing pipe, the top end of the inner side of the exchange heat insulation box is fixedly connected with a reflux heating pipe, one end of a constant pressure pipe is provided with a constant pressure check valve, the boiling point of water is reduced by exhausting and depressurizing the inside, the inside is dried by self-circulation heating of air, the air pressure is increased by matching with external air inlet, the air pressure of the discharged water vapor is changed, the condensation of the water vapor is accelerated, the rapid dehydration of the air is realized, and meanwhile, the heat emitted by condensation is recycled during the dehydration, so that the waste of resources is reduced, the drying temperature of the latex glove can be stably controlled during the drying treatment, the condition that the latex glove is subjected to hot melt adhesion caused by overhigh drying temperature is avoided, and the drying speed can be accelerated.

Description

Washing and drying integrated machine for latex glove production

Technical Field

The invention relates to the technical field of latex glove production equipment, in particular to a washing and drying integrated machine for latex glove production.

Background

The latex glove is one of the gloves, is processed by latex, adopts natural latex and is processed by other fine auxiliary agents, the latex glove is required to be inflated for inspection, low-temperature shaping, medium-temperature drying, water washing, dehydration and drying after being packaged and sent to a finished product bin after being demolded, and the washing and drying integrated machine is a washing machine with a drying function added on the basis of a full-automatic washing machine, and is generally operated by an industrial washing and drying integrated machine when the latex glove is washed and dried.

However, when the existing washing and drying integrated machine for treating latex gloves is used, the temperature of the drying mode is higher during treatment through high-temperature direct-blowing drying or steam hot drying, hot melting adhesion is easily caused when the drying mode is directly contacted with the latex gloves, the quality of products is affected, and hot steam is generally directly discharged out of a machine body during use, so that the humidity and the temperature of the external environment are increased, and meanwhile, the resource waste is caused.

Disclosure of Invention

The invention provides a washing and drying integrated machine for latex glove production, which can effectively solve the problems that the prior washing and drying integrated machine for latex glove treatment in the background art has higher temperature in treatment by high-temperature direct blowing drying or steam hot drying, the hot drying of the latex glove is easy to occur under the condition of hot melt adhesion when the drying mode is directly contacted with the latex glove, the quality of products is influenced, and hot steam is generally directly discharged out of a machine body in use, so that the humidity and the temperature of the external environment are increased, and the resource is wasted.

In order to achieve the above purpose, the present invention provides the following technical solutions: washing and drying integrated machine for latex glove production comprises a sealing limit box, and is characterized in that: one side of the sealing limit box is provided with a pressure-regulating internal circulation drying component;

the pressure-regulating internal circulation drying assembly comprises an emptying pipe;

one end of the sealing limit box is connected with an evacuation pipe in a penetrating way, and a vacuum pump is arranged at one end of the sealing limit box;

one end of the sealing limiting box is connected with a buffer box in a penetrating manner, one end of the buffer box is connected with a plurality of extraction pipe frames in an equidistant penetrating manner, and the other end of the buffer box is connected with a discharge pipe in a penetrating manner;

the side end of the sealed limiting box is provided with a circulating pump, the bottom end of the sealed limiting box is welded with an exchange insulation box, the bottom end of the inner side of the exchange insulation box is connected with a condensing pipe, and one end of the condensing pipe is respectively connected with the exhaust end of the circulating pump and the air inlet end of the pressurizing pipe through an adapter;

the top end of the inner side of the exchange insulation box is connected with a reflux heating pipe, a plurality of combined heat conducting plates are embedded and installed at equal intervals on the side ends of the condensing pipe and the reflux heating pipe, a flow blocking plate is welded on the bottom end of the combined heat conducting plates, one ends of the condensing pipe and the reflux heating pipe are connected with the air inlet end of a constant pressure pipe in a clamping manner through an adapter, and a constant pressure check valve is installed at one end of the constant pressure pipe;

the sealing limit case other end runs through the joint and has the drying cabinet, drying cabinet one end is connected with the injection pipe support in a running way, the drying cylinder mould is installed to the inboard embedding of drying cabinet, the inboard end embedding combination of injection pipe support has the water conservancy diversion fill, the drying cabinet other end is connected with the admission pipe in a running way, admission pipe bottom fixedly connected with electromagnetic heating box, the temperature detector is installed with the equal embedding of admission pipe side to the backward flow heating pipe.

According to the technical scheme, a servo motor is arranged at one end of the inner side of the sealing limit box, an outer barrel is rotatably arranged at the inner side of the sealing limit box, a belt transmission group is clamped between an output shaft of the servo motor and one end of the outer barrel, and an inner barrel is clamped between the inner side of the outer barrel;

the top of the outer barrel is connected with an exhaust pipe in a penetrating way;

and a heat exchange contact block is welded at the top side end of the combined heat conducting plate corresponding to the inner side end of the reflux heating pipe, and the exhaust end of the constant pressure pipe is clamped and combined with one end of the emptying pipe.

According to the technical scheme, the bottom of the side end of the condensing pipe is connected with the drain pipe in a penetrating manner, one ends of the outer barrel and the exchange heat insulation box are connected with the drain pipe in a penetrating manner, one ends of the exhaust pipe and the pressurizing pipe are provided with the electromagnetic limiting valve in an embedded manner, and one ends of the drain pipe and the drain pipe are provided with the one-way valve in an embedded manner;

one end of the emptying pipe is clamped and combined with one end of the vacuum pump, the longitudinal section of the sealing and fixing cover is , and the side end of the sealing and fixing cover is in sliding fit with the side end of the sealing and limiting box;

the extraction pipe support and the injection pipe support side end are all penetrated and embedded to be installed in the outer barrel side end, condenser pipe and backward flow heating pipe one end are all connected with the exchange insulation can penetration, backward flow heating pipe one end and electromagnetic heating box bottom end joint combination.

According to the technical scheme, the longitudinal section of the spoiler is semicircular, the cross section of the diversion bucket is trapezoid, and the input ends of the servo motor, the vacuum pump, the sealing electric push rod, the circulating pump, the constant pressure check valve, the electromagnetic heating box, the temperature detector and the electromagnetic limiting valve are electrically connected with the output end of the external controller, and the input end of the external controller is electrically connected with the output end of the external power supply.

According to the technical scheme, the drain pipe is embedded and installed at one end of the inner side of the exchange insulation box, the side end of the exchange insulation box is welded with the bottom end of the inner side of the protection box, and one end of the pressurizing pipe and one end of the water drain pipe are connected with the side end of the protection box in a penetrating manner.

According to the technical scheme, a combined limiting overturning assembly is arranged on one side of the inner barrel;

the combined limiting and overturning assembly comprises a linkage fixed column;

the inner barrel side end is penetrated and welded with a linkage fixed column, one end of the linkage fixed column is clamped and combined with the side end of the belt transmission group, the inner side of the inner barrel linkage fixed column is embedded and installed with a power supply battery pack, one end of the inner barrel is embedded and clamped with a fixed electromagnet, and the inner side of the inner barrel is inserted and magnetically connected with a placing barrel;

a plurality of linkage supporting grooves are formed in the side ends of the linkage fixing columns at equal intervals, a return spring is welded at one end of the inner side of each linkage supporting groove, a supporting fixing rod is welded at one end of each return spring, a limiting electromagnet is clamped at the position of the side end of each linkage fixing column corresponding to the supporting fixing rod, a fixed permanent magnet is magnetically connected to the side end of each supporting fixing rod, the fixed permanent magnet side end bonds and has linked rope, a plurality of fixed mounting groove has been seted up to the inboard end of placing the bucket, linkage spring is installed to the fixed mounting groove inboard, linkage spring side end joint has the linkage dead lever, a plurality of insert standing groove has been seted up to the inboard equidistance of placing the bucket, insert the standing groove side end and insert and be connected with the absorption electro-magnet.

According to the technical scheme, place bucket and linkage fixed column side and slide the laminating, support the dead lever and rotate and install in the linkage and support groove side, support dead lever one end and insert the inboard end joint of standing groove and be connected, spacing electro-magnet side and support the laminating of the magnetism of dead lever side.

According to the technical scheme, the linkage rope one end runs through and installs in placing the bucket side, linkage rope one end and linkage dead lever side bonding connection, fixed electromagnet, spacing electro-magnet and absorption electro-magnet input all with power supply battery output electric connection, power supply battery input and outside wireless charging power supply output electric connection, fixed electromagnet, spacing electro-magnet and absorption electro-magnet signal input and outside wireless controller signal output electric connection.

According to the technical scheme, a cleaning and sterilizing assembly is arranged on one side of the outer barrel, and the cleaning and sterilizing assembly comprises a water inlet pipe;

the top of the side end of the outer barrel is connected with a water inlet pipe in a penetrating way, the side end of the water inlet pipe is symmetrically connected with a pressurizing pipe in a penetrating way, one end of the water inlet pipe is provided with an electromagnetic control valve, the inner side of the pressurizing pipe is embedded and provided with a high-pressure spray head, the side end of the outer barrel is connected with a plurality of protective covers in an equidistant penetrating way, the inner side of the protective cover is inserted and connected with an ultraviolet disinfection lamp, and the position of the side end of the outer barrel corresponding to the protective cover is clamped with a transparent isolation plate;

the inner barrel is characterized in that a plurality of placing fixing holes are formed in the outer side end of the inner barrel at equal intervals, a plurality of supporting springs are mounted on the inner side of each placing fixing hole, cleaning scraping plates are clamped at the top ends of the supporting springs, limiting permanent magnets are bonded at the bottom ends of the cleaning scraping plates, and an electromagnet is mounted at the bottom end of the inner side of each placing fixing hole.

According to the technical scheme, the side end of the pressurizing pipe is installed at the top of the side end of the outer barrel in a penetrating mode, the side end of the cleaning scraping plate is in sliding fit with the inner side end of the placing fixing hole, and the electromagnetic control valve, the ultraviolet disinfection lamp and the input end of the countermeasure electromagnet are electrically connected with the output end of the external controller.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

the pressure-regulating internal circulation drying assembly is arranged, the inside of the sealing limit box and the outside barrel is subjected to pressure reduction treatment through the vacuum pump, the evacuation pipe and the exhaust pipe, and the boiling point of water is reduced through the operation of reducing the air pressure, so that the hot drying temperature is reduced, and the condition of hot melt adhesion of latex gloves caused by overhigh temperature is avoided;

the air heating circulation is driven by the extraction pipe rack, the buffer box, the discharge pipe, the circulating pump, the condensing pipe, the reflux heating pipe, the electromagnetic heating box, the inlet pipe, the drying box and the injection pipe rack to form air convection, and the inner barrel is matched for continuous rotation, so that the contact position is changed to accelerate the drying speed;

the electromagnetic limiting valve is used for controlling the pressurizing pipe and the circulating pump to control the airflow velocity, the air pressure is intermittently increased, the boiling point of water is increased, so that water vapor is condensed into water, and simultaneously, the heat conducting plate, the flow blocking plate and the heat exchange contact block are combined to exchange heat to the air in the reflux heating pipe, so that the speed of air dehydration is accelerated, the condition that the drying speed is influenced by the reflux of moist air is avoided, and the constant pressure pipe, the constant pressure check valve and the vacuum pump are mutually matched to reduce the reflux air pressure, and the increase of the air pressure of an inner barrel is avoided, so that the speed of evaporation of the water in the inner barrel is influenced;

through reducing the pressure to inside exhaust, reduce the boiling point of water, rethread air self-loopa heating is dried to inside to the cooperation outside increases atmospheric pressure that admits air, changes the vapor atmospheric pressure after the discharge, accelerates vapor condensation, realizes the quick dehydration to the air, carries out recycle to the heat that the condensation gives off when the dehydration simultaneously, reduces the waste of resource, makes the temperature of its stoving of control that can be stable when handling latex glove stoving, avoids the condition that the stoving temperature is too high to lead to the hot melt adhesion to appear in the latex glove, simultaneously can accelerate the speed of stoving, and through inside self-loopa heating condensation, avoid the hot vapor discharge to lead to the condition that external environment temperature and humidity rise to appear, guaranteed the stability of external environment.

The combined limiting turnover assembly is arranged, the supporting fixing rod is driven to rotate through the reset spring, the supporting fixing rod is embedded into the inner side of the insertion placing groove and is limited by the adsorption electromagnet, meanwhile, the supporting fixing rod drives the fixing permanent magnet, the linkage rope and the linkage fixing rod to rotate, the side end of the linkage fixing rod is attached to the side end of the linkage fixing column, the supporting fixing rod and the linkage fixing rod are mutually staggered, a reticular structure is formed in the placing barrel, when the inner barrel turns over, latex gloves fall onto the side ends of the supporting fixing rod and the linkage fixing rod, the latex gloves are prevented from falling into the barrel wall directly, the falling path and time are increased, the latex gloves are enabled to be in contact with drying airflow more fully, meanwhile, the latex gloves are swung in the inner part to fall, the falling direction and mode are changed, water remained in the latex gloves is discharged, and the drying speed is accelerated;

through fixed electromagnet and linkage fixed column to placing the bucket fixed spacing for can be through taking the installation when needs wash the stoving to latex glove and place the quick operation of bucket, need not the staff and take the latex glove in washing and drying the all-in-one, accelerated the speed of reloading.

3. Be provided with clean subassembly that disinfects, wash the inner barrel outer wall through increasing pipe and high-pressure nozzle input high-pressure rivers, repel each other through antagonism electro-magnet and spacing permanent magnet homopolar, thereby laminate cleaning blade to outer barrel inner wall, last the rotation through the inner barrel, thereby strike off impurity and the sewage of outer barrel inner wall, make the inside wall cleaning that can be quick after accomplishing latex glove washing, again to inside disinfection by ultraviolet disinfection lamp, thereby guaranteed inside cleanliness factor, and reduce inside bacterium content, the clean of washing and drying all-in-one internal environment has been guaranteed.

In summary, through the mutual cooperation of the internal circulation drying assembly of pressure regulating and the spacing upset subassembly of combination, make can utilize to support the dead lever and the crisscross support of linkage dead lever when the stoving, increase the time that latex glove and hot gas flow contacted, and through the position of its stoving of continuous change, avoid single position stoving to lead to the condition that the latex glove is heated uneven deformation to appear, through the mutual cooperation of the internal circulation drying assembly of pressure regulating and clean subassembly of disinfecting, make can utilize long-time constant temperature to disinfect the inside when the stoving, and through the laminating of cleaning blade paste side and outer bucket inner wall, restrict the flow direction of air current, avoid the air current to circulate along outer bucket wall directness, thereby lead to the spacing to the air current, the effect of having guaranteed the stoving of heating, through a plurality of subassemblies mutually support, make can be fast continuous stable operation when washing the stoving to latex glove, the product quality of latex glove after the stoving has been guaranteed.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the apparatus of the present invention;

FIG. 2 is a schematic view of the mounting structure of the protective housing of the present invention;

FIG. 3 is a schematic view of the structure of the pressure-regulating internal circulation drying assembly of the present invention;

FIG. 4 is a schematic view of the mounting structure of the seal-retaining cap of the present invention;

FIG. 5 is a schematic view of the mounting structure of the composite heat-conducting plate of the present invention;

FIG. 6 is a schematic view of the mounting structure of the servo motor of the present invention;

FIG. 7 is a schematic view of the combined limit flip assembly of the present invention;

FIG. 8 is a schematic view of the mounting structure of the stationary electromagnet of the present invention;

FIG. 9 is a schematic view of the mounting structure of the linkage securing lever of the present invention;

fig. 10 is a schematic view of the structure of the cleaning and sterilizing module of the present invention;

FIG. 11 is a schematic view of the mounting structure of the support spring of the present invention;

reference numerals in the drawings: 1. sealing the limiting box; 2. a servo motor; 3. an outer tub; 4. a belt drive set; 5. an inner barrel;

6. pressure-regulating internal circulation drying component; 601. an evacuation tube; 602. a vacuum pump; 603. sealing the electric push rod; 604. sealing and fixing the cover; 605. an exhaust pipe; 606. a buffer box; 607. extracting a pipe frame; 608. a discharge pipe; 609. a circulation pump; 610. exchanging the heat preservation box; 611. a condensing tube; 612. a pressurizing tube; 613. a reflux heating pipe; 614. a combined heat conducting plate; 615. a spoiler; 616. a heat exchange contact block; 617. a constant pressure pipe; 618. a constant pressure check valve; 619. a drying box; 620. an injection pipe rack; 621. drying the net cage; 622. a diversion bucket; 623. an inlet tube; 624. an electromagnetic heating box; 625. a temperature detector; 626. a drain pipe; 627. a water drain pipe; 628. an electromagnetic limiting valve; 629. a one-way valve;

7. a protective box;

8. combining a limiting overturning assembly; 801. a linkage fixing column; 802. a power supply battery pack; 803. fixing an electromagnet; 804. placing a barrel; 805. a linkage support groove; 806. a return spring; 807. a supporting fixing rod; 808. limiting electromagnet; 809. fixing a permanent magnet; 810. a linkage rope; 811. a fixed mounting groove; 812. a linkage spring; 813. a linkage fixed rod; 814. inserting into the placement groove; 815. an adsorption electromagnet;

9. cleaning a sterilization assembly; 901. a water inlet pipe; 902. a pressurizing pipe; 903. an electromagnetic control valve; 904. a high pressure nozzle; 905. a protective cover; 906. an ultraviolet sterilizing lamp; 907. a transparent partition plate; 908. placing a fixing hole; 909. a support spring; 910. a cleaning blade; 911. a limit permanent magnet; 912. against the electromagnet.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-11, the invention provides a technical scheme, namely a washing and drying integrated machine for latex glove production, which comprises a sealing limit box 1, wherein one end of the inner side of the sealing limit box 1 is provided with a servo motor 2 through a motor seat, the inner side of the sealing limit box 1 is rotatably provided with an outer barrel 3 near the position of the servo motor 2, an output shaft of the servo motor 2 and one end of the outer barrel 3 are clamped with a belt transmission group 4, and the inner side of the outer barrel 3 is clamped with an inner barrel 5;

one side of the sealing limit box 1 is provided with a pressure-regulating internal circulation drying component 6;

the pressure-regulating internal circulation drying assembly 6 comprises an evacuation pipe 601, a vacuum pump 602, a sealing electric push rod 603, a sealing fixing cover 604, an exhaust pipe 605, a buffer box 606, an extraction pipe frame 607, an exhaust pipe 608, a circulation pump 609, an exchange heat insulation box 610, a condensation pipe 611, a pressurizing pipe 612, a reflux heating pipe 613, a combined heat conducting plate 614, a flow blocking plate 615, a heat exchange contact block 616, a constant pressure pipe 617, a constant pressure check valve 618, a drying box 619, an injection pipe frame 620, a drying net cage 621, a guide funnel 622, an inlet pipe 623, an electromagnetic heating box 624, a temperature detector 625, a drain pipe 626, a drain pipe 627, an electromagnetic limiting valve 628 and a one-way valve 629;

an evacuation pipe 601 is connected to one end of the sealing limit box 1 in a penetrating manner, a vacuum pump 602 is installed at the position, corresponding to the evacuation pipe 601, of one end of the sealing limit box 1 through a motor base, one end of the evacuation pipe 601 is clamped and combined with one end of the vacuum pump 602, so that effective linkage operation can be achieved when air is pumped and exhausted, a sealing electric push rod 603 is symmetrically clamped at the top end of the sealing limit box 1, a sealing fixed cover 604 is clamped at the position, corresponding to the sealing limit box 1, of one end of the sealing electric push rod 603, the longitudinal section of the sealing fixed cover 604 is , the side end of the sealing fixed cover 604 is in sliding fit with the side end of the sealing limit box 1, sealing integrity can be guaranteed when the sealing limit box 1 is sealed and limited, air leakage is avoided, and an exhaust pipe 605 is connected to the top of the outer side end of the outer barrel 3 in a penetrating manner;

the buffer box 606 is penetrated and clamped at the position of one end of the sealing limit box 1, which is close to the outer barrel 3, a plurality of extraction pipe racks 607 are penetrated and connected at the position of one end of the buffer box 606, which corresponds to the side end position of the outer barrel 3, the side ends of the extraction pipe racks 607 and the injection pipe racks 620 are penetrated and embedded and installed at the side end of the outer barrel 3, so that the effective operation can be realized when the air is pumped and injected into the outer barrel 3, the other end of the buffer box 606 is penetrated and connected with the discharge pipe 608, the circulating pump 609 is installed at the position of the side end of the sealing limit box 1, which corresponds to the discharge pipe 608, through a motor base, a heat exchange box 610 is welded at the bottom end of the sealing limit box 1, a condensing pipe 611 is fixedly connected at the bottom end of the inner side of the heat exchange box 610, one end of the condensing pipe 611 is respectively connected with the exhaust end of the circulating pump 609 and the air inlet end of the pressurizing pipe 612 through an adapter, the top of the inner side of the heat exchange box 610 is fixedly connected with a reflux heating pipe 613, one end of the condensation pipe 611 and one end of the reflux heating pipe 613 are connected with the exchange insulation box 610 in a penetrating way, so that the positions of the condensation pipe 611 and the reflux heating pipe 613 can be limited and fixed during operation, a plurality of combined heat conducting plates 614 are embedded and installed at equal intervals at the side ends of the condensation pipe 611 and the reflux heating pipe 613, a flow blocking plate 615 is welded at the bottom side end of the combined heat conducting plates 614 corresponding to the inner side end of the condensation pipe 611, the longitudinal section of the flow blocking plate 615 is semicircular, so that effective limiting and fixing can be performed when limiting air flow to move along the condensation pipe 611, the flowing speed of the air can be slowed down, a heat exchange contact block 616 is welded at the top side end of the combined heat conducting plates 614 corresponding to the inner side end of the reflux heating pipe 613, one end of the condensation pipe 611 and one end of the reflux heating pipe 613 are connected with the air inlet end of a fixed pressure pipe 617 in a clamping way through an adapter, the fixed pressure check valve 618 is installed at one end of the fixed pressure pipe 617, and the exhaust end of the fixed pressure pipe 617 is combined with one end of the evacuation pipe 601 in a clamping way;

the other end of the sealing limiting box 1 is connected with a drying box 619 in a penetrating and clamping manner at a position close to the outer barrel 3, one end of the drying box 619 is connected with an injection pipe rack 620 in a penetrating manner at a position corresponding to the outer barrel 3, a drying net cage 621 is embedded and installed at the inner side of the drying box 619, a diversion bucket 622 is embedded and combined at the inner side end of the injection pipe rack 620, the cross section of the diversion bucket 622 is trapezoid, the size of an air outlet can be reduced during air exhaust, the flow speed of air is increased, the other end of the drying box 619 is connected with an inlet pipe 623 in a penetrating manner, an electromagnetic heating box 624 is fixedly connected with the bottom end of the inlet pipe 623, one end of a backflow heating pipe 613 is connected with the bottom end of the electromagnetic heating box 624 in a clamping manner, air can be heated and backflow through the electromagnetic heating box 624 accurately, and temperature detectors 625 are embedded and installed at the side ends of the backflow heating pipe 613 and the inlet pipe 623;

the drain pipe 626 is connected to the bottom of the side end of the condensing tube 611, the drain pipe 627 is connected to one end of the outer barrel 3 and one end of the exchange heat insulation box 610 in a penetrating manner, the drain pipe 626 is embedded and installed at one end of the inner side of the exchange heat insulation box 610, stable drainage is facilitated, the side end of the exchange heat insulation box 610 is connected with the bottom end of the inner side of the protection box 7 in a welding manner, one end of the pressurizing tube 612 and one end of the drain pipe 627 are connected to one end of the protection box 7 in a penetrating manner, the protection fixing effect on the inside is guaranteed, the electromagnetic limiting valve 628 is embedded and installed at one end of the exhaust pipe 605 and one end of the pressurizing tube 612, the one end of the drain pipe 626 and one end of the drain pipe 627 are embedded and installed with the one-way valve 629, and the input ends of the servo motor 2, the vacuum pump 602, the sealing electric push rod 603, the circulating pump 609, the constant pressure check valve 618, the electromagnetic heating box 624, the temperature detector 625 and the electromagnetic limiting valve 628 are electrically connected with the output end of the external controller.

One side of the inner barrel 5 is provided with a combined limiting overturning assembly 8;

the combined limiting and overturning assembly 8 comprises a linkage fixed column 801, a power supply battery pack 802, a fixed electromagnet 803, a placing barrel 804, a linkage supporting groove 805, a reset spring 806, a supporting fixed rod 807, a limiting electromagnet 808, a fixed permanent magnet 809, a linkage rope 810, a fixed mounting groove 811, a linkage spring 812, a linkage fixed rod 813, an inserting placing groove 814 and an adsorption electromagnet 815;

the side end of the inner barrel 5 is penetrated and welded with a linkage fixed column 801, one end of the linkage fixed column 801 is clamped and combined with the side end of the belt transmission group 4, a power supply battery pack 802 is embedded and installed on the inner side of the inner barrel 5, a fixed electromagnet 803 is embedded and clamped on one end of the inner barrel 5, a placing barrel 804 is connected with the inner side of the inner barrel 5 in a inserted magnetic manner, and the placing barrel 804 is in sliding fit with the side end of the linkage fixed column 801, so that the positioning barrel 804 can be clamped and connected in an effective guide manner when being fixedly installed, and the accuracy of the fixed position is ensured;

a plurality of linkage supporting grooves 805 are formed in the side end of the linkage fixing column 801 at equal intervals, a reset spring 806 is welded at one end of the inner side of the linkage supporting groove 805, a supporting fixing rod 807 is welded at one end of the reset spring 806, a linkage spring 812 is mounted on the inner side of the linkage fixing rod 808 in a fixed mounting mode, the supporting fixing rod 807 is rotatably mounted at the side end of the linkage supporting groove 805, one end of the supporting fixing rod 807 is connected with the side end of the inserting placing groove 814 in a clamping mode, the position of the corresponding supporting fixing rod 807 in the supporting linkage and fixed mounting mode is clamped with a limiting electromagnet 808, a fixed permanent magnet 809 is magnetically connected to the side end of the supporting fixing rod 807, a linkage rope 810 is bonded to the side end of the fixed permanent magnet 809, a plurality of linkage fixing grooves 811 are formed in the side end of the placing barrel 804 in a clamping mode, one end of the linkage rope 810 is mounted on the side end of the placing barrel 804 in a penetrating mode, one end of the linkage rope 813 is connected with the side end of the inserting fixing rod 813 in a bonding mode, the linkage fixing rod 814 can be electrically connected with the inner side end of the inserting groove 803 in a fixed mode, the position of the linkage fixing rod 814 is required to be electrically connected with the wireless power supply end of the wireless power supply unit, and the wireless power supply end of the wireless power supply unit is connected with the wireless power supply end of the wireless power supply unit 803, and the wireless power supply end of the wireless power unit is connected with the wireless power supply end of the wireless power unit 803, and the wireless power unit is connected with the wireless power supply end of the wireless power unit is arranged in the position of the wireless power unit 803, and the wireless power end of the wireless power unit is connected with the power end of the power supply end of the wireless power unit.

A cleaning and sterilizing assembly 9 is installed on one side of the outer tub 3, and the cleaning and sterilizing assembly 9 comprises a water inlet pipe 901, a pressurizing pipe 902, an electromagnetic control valve 903, a high-pressure spray nozzle 904, a protective cover 905, an ultraviolet sterilizing lamp 906, a transparent isolation plate 907, a placing fixing hole 908, a supporting spring 909, a cleaning scraper 910, a limiting permanent magnet 911 and an opposing electromagnet 912;

the top of the side end of the outer barrel 3 is connected with a water inlet pipe 901 in a penetrating way, the side end of the water inlet pipe 901 is symmetrically connected with a pressurizing pipe 902 in a penetrating way, the side end of the pressurizing pipe 902 is arranged on the top of the side end of the outer barrel 3 in a penetrating way, so that the operation can be performed quickly when water needs to be fed, an electromagnetic control valve 903 is arranged at one end of the water inlet pipe 901, a high-pressure spray nozzle 904 is embedded and arranged at the inner side of the pressurizing pipe 902, a plurality of protective covers 905 are connected with the side end of the outer barrel 3 in an equidistant penetrating way, an ultraviolet disinfection lamp 906 is inserted and connected at the inner side of the protective covers 905, and a transparent isolation plate 907 is clamped at the position of the side end of the outer barrel 3 corresponding to the protective covers 905;

the equidistant fixed orifices 908 of placing of a plurality of have been seted up to interior bucket 5 outside end, place the fixed orifices 908 inboard and install a plurality of supporting spring 909, supporting spring 909 top joint has cleaning scraper 910, cleaning scraper 910 side and place the inboard end slip laminating of fixed orifices 908 for can effectually support the direction when clean linkage, avoid breaking away from the condition emergence of skew, cleaning scraper 910 bottom bonds there is spacing permanent magnet 911, place the inboard bottom of fixed orifices 908 and install the counter electromagnet 912, electromagnetic control valve 903, ultraviolet disinfection lamp 906 and counter electromagnet 912 input all with external control ware output electric connection.

The working principle and the using flow of the invention are as follows: when the latex glove is cleaned, a worker places the latex glove on the inner side of a placing barrel 804, inserts the placing barrel 804 into the position of an inner barrel 5 along a linkage fixing column 801, simultaneously attaches the side end of the placing barrel 804 to the side end of a fixing electromagnet 803, supplies power to the fixing electromagnet 803 through a power supply battery pack 802, thereby fixing and limiting the placing barrel 804 through the fixing electromagnet 803, attaching a fixing permanent magnet 809 to the side end of a supporting fixing rod 807 in an adsorption manner, simultaneously embedding the fixing permanent magnet 809 into the side end of a linkage supporting groove 805, and after the fixing of the placing barrel 804 is completed, driving the inner barrel 5 and the placing barrel 804 to rotate through a servo motor 2 and a belt transmission set 4 so as to clean the latex glove;

after the latex glove washing and rinsing are finished, the water inlet pipe 901 is closed through the electromagnetic control valve 903, water enters the position of the high-pressure spray head 904 along the pressurizing pipe 902, the inner barrel 5 is directly subjected to impact cleaning through high-pressure water flow, the counter electromagnet 912 is started, the limit permanent magnet 911 is jacked up through the principle of like polarity repulsion, the counter electromagnet 912 is driven to ascend along the placing fixing hole 908 to be attached to the inner side end of the outer barrel 3, the inner barrel 5 is driven by the servo motor 2 and the belt transmission group 4 to slowly rotate, water is synchronously discharged in the rotating process, the inner barrel 5 drives the cleaning blade 910 to continuously rotate, so that the inner wall of the outer barrel 3 is cleaned, the inner wall between the outer barrel 3 and the inner barrel 5 is continuously scraped and cleaned through high-pressure water impact, the cleaning blade 910 can be cleaned, the situation that bacteria are bred on the inner wall is avoided due to the fact that impurities remain in the inner wall is avoided, meanwhile, the cleaning effect is ensured due to the fact that the ultraviolet disinfection lamp 906 continuously disinfects the inner wall, the counter electromagnet 912 is closed, the supporting spring 909 is driven to be embedded into the inner side of the placing fixing hole 908 after the treatment is finished, and the cleaning blade 910 is damaged, and the situation that the cleaning blade 910 is damaged is avoided due to the fact that the cleaning is high-speed cleaning blade is carried out;

after dehydration is completed, the limit electromagnet 808 is closed through the power supply battery pack 802, the adsorption electromagnet 815 is started, the support fixing rod 807 is loosened, the support fixing rod 807 is driven by the reset spring 806 to rotate along the linkage support groove 805, thereby the support fixing rod 807 is rotationally inserted into the inner side of the insertion placing groove 814, when the support fixing rod 807 is embedded into the inner side of the insertion placing groove 814, the adsorption electromagnet 815 adsorbs and fixes the support fixing rod 807, thereby the support fixing rod 807 is rapidly and fixedly installed, in the process of rotationally fixing the support fixing rod 807 into the insertion placing groove 814, the support fixing rod 807 drives the fixing permanent magnet 809 and the linkage rope 810 to pull the linkage fixing rod 813 to rotate along the fixed installation groove 811, the linkage fixing rod 813 is fixedly limited through the support fixing rod 807, the fixing permanent magnet 809 and the linkage rope 810, and the linkage fixing rod 813 are driven by the linkage spring 812 to be reset, the support fixing rod 807 and the linkage fixing rod 813 are mutually crossed, the latex glove can be supported and separated in the process of hot drying rotation, meanwhile, the latex glove can be limited when the latex glove falls down, the latex glove is driven to swing back and forth, the latex glove is driven to swing and fall, the residual latex is removed, and the drying efficiency is ensured;

after dehydration is completed, the sealing fixing cover 604 is driven by the sealing electric push rod 603 to seal and limit the side end of the sealing limit box 1, air in the sealing limit box 1 and the outer barrel 3 is pumped through the vacuum pump 602 and the evacuation pipe 601, so that the internal air pressure is reduced, when the internal air pressure is reduced to a limited air pressure, air in the outer barrel 3 is pumped through the pumping pipe rack 607, the buffer box 606 and the exhaust pipe 608 by the circulating pump 609, so that moist air in the inner barrel 5 is driven to synchronously flow to the position of the buffer box 606, the moist air enters the position of the condensation pipe 611 along the exhaust pipe 608, flows to the position of the electromagnetic heating box 624 through the condensation pipe 611 and the reflux heating pipe 613, the air is heated to a required temperature through the electromagnetic heating box 624, the heated air flows back to the position of the outer barrel 3 along the inlet pipe 623, the drying net 621 and the injection pipe rack 620, the air flow of the inner barrel 5 is guided to enter the inner barrel 5 to dry the latex glove directly, the heated air contacts with the surface water of the latex glove to generate water vapor, the water vapor is discharged into the inner side of the condensation pipe 611 along the extraction pipe rack 607, the buffer box 606 and the discharge pipe 608, the pressurizing pipe 612 is opened through the electromagnetic limiting valve 628, the internal air is introduced into the inner part by the pressurizing pipe 612 to increase the internal air pressure, thereby increasing the boiling point of the water, the water vapor evaporated in the low-pressure environment is condensed at the position of the condensation pipe 611, the condensed water is discharged along the discharge pipe 626 and the discharge pipe 627, the condition of avoiding the occurrence of the backflow of the sewage and the air is limited by the one-way valve 629, the heat emitted by condensation enters the air at the position of the reflux heating pipe 613 under the heat exchange operation of the combined heat conducting plate 614, the flow blocking plate 615 and the heat exchange contact block 616, and the flow path of the air flow is prolonged through the flow blocking plate 615, the time of heat exchange is increased, and heat exchange area is increased through heat exchange contact piece 616, thereby the effect of heat exchange is guaranteed, through outside air and inside vapor dislocation pouring, make the processing to vapor that can be quick when drying, and retrieve the heat, reduce the loss of heat, the air flow of condenser pipe 611 position department to constant pressure pipe 617 position department, limit the atmospheric pressure of condenser pipe 611 position department through vacuum pump 602 and constant pressure check valve 618, avoid the condition that atmospheric pressure is too big to appear, discharge unnecessary air, the remaining air flows to temperature detector 625 position department along backward flow heating pipe 613, detect the temperature through temperature detector 625, the rethread electromagnetic heating box 624 heats the air, thereby be convenient for control stoving temperature, through inside air circulation operation, and directly condense the processing to vapor in inside, avoid vapor to discharge outdoors, the loss of heat, avoid the condition that leads to the environment excessive stoving to appear because of a large amount of vapor discharge simultaneously, and through low pressure circulation, the temperature of having reduced the hot melt, avoid the condition that the latex hot melt temperature is too high to lead to the viscidity to the condition to appear in the gloves, and can take place in the drying cage temperature, and the drying cage temperature can be guaranteed the mutual air absorption rate in the drying cage 621 when it is further through the drying cage, thereby the drying efficiency is guaranteed.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a latex glove production is with washing and drying all-in-one, includes sealed restriction case (1), its characterized in that: one side of the sealing limit box (1) is provided with a pressure-regulating internal circulation drying component (6);

the pressure-regulating internal circulation drying assembly (6) comprises an emptying pipe (601);

one end of the sealing limit box (1) is connected with an emptying pipe (601) in a penetrating way, and a vacuum pump (602) is arranged at one end of the sealing limit box (1);

one end of the sealing limiting box (1) is connected with a buffer box (606) in a penetrating manner, one end of the buffer box (606) is connected with a plurality of extraction pipe frames (607) in an equidistant penetrating manner, and the other end of the buffer box (606) is connected with a discharge pipe (608) in a penetrating manner;

the circulating pump (609) is arranged at the side end of the sealing limit box (1), the exchange insulation box (610) is welded at the bottom end of the sealing limit box (1), the condensation pipe (611) is connected at the bottom end of the inner side of the exchange insulation box (610), and one end of the condensation pipe (611) is respectively connected with the exhaust end of the circulating pump (609) and the air inlet end of the pressurizing pipe (612) through an adapter;

the top end of the inner side of the exchange insulation box (610) is connected with a reflux heating pipe (613), a plurality of combined heat-conducting plates (614) are embedded and installed at equal intervals at the side ends of the condensing pipe (611) and the reflux heating pipe (613), a spoiler (615) is welded at the bottom side end of each combined heat-conducting plate (614), one ends of the condensing pipe (611) and the reflux heating pipe (613) are connected with the air inlet end of a constant pressure pipe (617) in a clamping manner through an adapter, and a constant pressure check valve (618) is installed at one end of the constant pressure pipe (617);

the utility model discloses a temperature detector, including sealed restriction case (1), drying cabinet (619), injection pipe support (620) inboard embedding combination has guide funnel (622), drying cabinet (619) other end runs through the joint and has drying cabinet (619), admission pipe (623) bottom fixedly connected with electromagnetic heating box (624), backflow heating pipe (613) and admission pipe (623) side all embedding are installed temperature detector (625).

2. The washing and drying integrated machine for latex glove production according to claim 1, wherein a servo motor (2) is installed at one end of the inner side of the sealing limit box (1), an outer barrel (3) is rotatably installed at the inner side of the sealing limit box (1), a belt transmission group (4) is clamped at one end of an output shaft of the servo motor (2) and one end of the outer barrel (3), and an inner barrel (5) is clamped at the inner side of the outer barrel (3);

the top end of the sealing limiting box (1) is symmetrically clamped with a sealing electric push rod (603), one end of the sealing electric push rod (603) is clamped with a sealing fixing cover (604) corresponding to the sealing limiting box (1), and the top of the outer side end of the outer barrel (3) is connected with an exhaust pipe (605) in a penetrating manner;

the top side end of the combined heat conducting plate (614) is welded with a heat exchange contact block (616) corresponding to the inner side end of the reflux heating pipe (613), and the exhaust end of the constant pressure pipe (617) is clamped and combined with one end of the emptying pipe (601).

3. The washing and drying integrated machine for latex glove production according to claim 2, wherein a drain pipe (626) is connected to the bottom of the side end of the condensing pipe (611) in a penetrating manner, a drain pipe (627) is connected to one end of the outer barrel (3) and one end of the exchange insulation box (610) in a penetrating manner, an electromagnetic limiting valve (628) is embedded and installed at one end of the exhaust pipe (605) and one end of the pressurizing pipe (612), and a one-way valve (629) is embedded and installed at one end of the drain pipe (626) and one end of the drain pipe (627);

one end of the emptying pipe (601) is clamped and combined with one end of the vacuum pump (602), the longitudinal section of the sealing and fixing cover (604) is , and the side end of the sealing and fixing cover (604) is in sliding fit with the side end of the sealing and limiting box (1);

the extraction pipe support (607) and injection pipe support (620) side all run through the embedding and install in outer bucket (3) side, condenser pipe (611) and backward flow heating pipe (613) one end all with exchange insulation can (610) through connection, backward flow heating pipe (613) one end and electromagnetic heating box (624) bottom joint combination.

4. The washing and drying integrated machine for latex glove production according to claim 3, wherein the longitudinal section of the flow blocking plate (615) is semicircular, the cross section of the flow guiding hopper (622) is trapezoid, and the input ends of the servo motor (2), the vacuum pump (602), the sealing electric push rod (603), the circulating pump (609), the constant pressure check valve (618), the electromagnetic heating box (624), the temperature detector (625) and the electromagnetic limiting valve (628) are electrically connected with the output end of an external controller, and the input end of the external controller is electrically connected with the output end of an external power supply.

5. The washing and drying integrated machine for latex glove production according to claim 3, wherein the drain pipe (626) is embedded and installed at one end of the inner side of the exchange insulation box (610), the side end of the exchange insulation box (610) is welded with the bottom end of the inner side of the protection box (7), and one end of the pressurizing pipe (612) and one end of the water drain pipe (627) are connected with the side end of the protection box (7) in a penetrating manner.

6. The washing and drying integrated machine for latex glove production according to claim 2, wherein a combined limiting turnover assembly (8) is arranged on one side of the inner barrel (5);

the combined limiting overturning assembly (8) comprises a linkage fixing column (801);

the inner barrel (5) side end is penetrated and welded with a linkage fixed column (801), one end of the linkage fixed column (801) is clamped and combined with the belt transmission group (4) side end, a power supply battery pack (802) is embedded and installed inside the inner barrel (5) linkage fixed column (801), one end of the inner barrel (5) is embedded and clamped with a fixed electromagnet (803), and the inner side of the inner barrel (5) is inserted and magnetically connected with a placement barrel (804);

a plurality of linkage supporting grooves (805) are formed in the side ends of the linkage fixing columns (801) at equal intervals, a return spring (806) is welded at one end of the inner side of each linkage supporting groove (805), a supporting fixing rod (807) is welded at one end of each return spring (806), a limiting electromagnet (808) is clamped at the position of the side end of each linkage fixing column (801) corresponding to the corresponding supporting fixing rod (807), a fixing permanent magnet (809) is magnetically attracted at the side end of each supporting fixing rod (807), the fixed permanent magnet (809) side bonds has linkage rope (810), a plurality of fixed mounting groove (811) have been seted up to the inboard end of placing bucket (804), linkage spring (812) are installed to fixed mounting groove (811) inboard, linkage spring (812) side joint has linkage dead lever (813), a plurality of insert standing groove (814) have been seted up to the inboard equidistance of placing bucket (804), insert standing groove (814) side and insert and be connected with adsorption electromagnet (815).

7. The washing and drying integrated machine for latex glove production according to claim 6, wherein the placing barrel (804) is in sliding fit with the side end of the linkage fixing column (801), the supporting fixing rod (807) is rotatably installed at the side end of the linkage supporting groove (805), one end of the supporting fixing rod (807) is in clamping connection with the inner side end of the inserting placing groove (814), and the side end of the limiting electromagnet (808) is in magnetic attraction fit with the side end of the supporting fixing rod (807).

8. The washing and drying integrated machine for latex glove production according to claim 6, wherein one end of the linkage rope (810) is installed at the side end of the placing barrel (804) in a penetrating mode, one end of the linkage rope (810) is connected with the side end of the linkage fixing rod (813) in an adhering mode, input ends of the fixing electromagnet (803), the limiting electromagnet (808) and the adsorbing electromagnet (815) are electrically connected with output ends of the power supply battery pack (802), input ends of the power supply battery pack (802) are electrically connected with output ends of an external wireless charging power supply, and signal input ends of the fixing electromagnet (803), the limiting electromagnet (808) and the adsorbing electromagnet (815) are electrically connected with signal output ends of an external wireless controller.

9. The washing and drying integrated machine for latex glove production according to claim 2, wherein a cleaning and sterilizing assembly (9) is arranged on one side of the outer barrel (3), and the cleaning and sterilizing assembly (9) comprises a water inlet pipe (901);

the top of the side end of the outer barrel (3) is connected with a water inlet pipe (901) in a penetrating manner, the side end of the water inlet pipe (901) is symmetrically connected with a pressurizing pipe (902) in a penetrating manner, an electromagnetic control valve (903) is arranged at one end of the water inlet pipe (901), a high-pressure spray head (904) is embedded and arranged at the inner side of the pressurizing pipe (902), a plurality of protective covers (905) are connected with the side end of the outer barrel (3) in an equidistant penetrating manner, an ultraviolet disinfection lamp (906) is inserted and connected at the inner side of the protective cover (905), and a transparent isolation plate (907) is clamped at the position of the side end of the outer barrel (3) corresponding to the protective cover (905);

the cleaning device is characterized in that a plurality of placing fixing holes (908) are formed in the outer side end of the inner barrel (5) at equal intervals, a plurality of supporting springs (909) are arranged on the inner side of each placing fixing hole (908), cleaning scrapers (910) are clamped on the top ends of the supporting springs (909), limiting permanent magnets (911) are bonded at the bottom ends of the cleaning scrapers (910), and counter electromagnets (912) are arranged at the bottom ends of the inner side of each placing fixing hole (908).

10. The washing and drying integrated machine for latex glove production according to claim 9, wherein the side end of the pressurizing pipe (902) is installed at the top of the side end of the outer barrel (3) in a penetrating manner, the side end of the cleaning scraper (910) is in sliding fit with the inner side end of the placing fixing hole (908), and the input ends of the electromagnetic control valve (903), the ultraviolet disinfection lamp (906) and the counter electromagnet (912) are electrically connected with the output end of the external controller.