Medical glove processing equipment and application method thereof
Technical Field
The invention relates to glove processing equipment and a using method thereof, in particular to medical glove processing equipment and a using method thereof, and belongs to the technical field of medical appliances.
Background
The vast data shows that maintaining hand hygiene is the most basic, simplest and effective means to effectively prevent pathogen transmission, thereby reducing the incidence of nosocomial infections, and it is necessary to wear disposable gloves in order to keep the hands clean for long periods of time.
The disposable gloves are worn to reduce the possibility of infection of pathogens of patients, the medical staff can be guaranteed health, even the probability of contact of pathogens of family members and friends of the medical staff can be reduced by wearing the gloves, and the medical staff can carry drug-resistant bacteria without wearing the gloves, so that the bacteria can cross parasitic among patients through contact with hands of the medical staff, and spread of drug-resistant disease strains is caused. So that the transfer of host patients is carried out again and again between communities, medical staff wearing gloves is mainly used for preventing the spread of bacteria, thereby protecting patients, themselves and other contactors.
Therefore, in the glove processing process, the safety of a patient is ensured, the safety of medical staff is also ensured, the traditional disposable medical glove is formed in one step, and as the rubber glove cannot be ensured to be air-leaked or damaged during forming, the rubber distribution is uneven once the rubber glove is formed, the rubber glove in a local area is too thin, so that the service life of the rubber glove is influenced on one hand, the life health of the medical staff is effectively ensured on the other hand, the traditional method is specially used for detection, and the detection efficiency is greatly reduced.
Accordingly, there is a need for an improvement in the processing equipment of medical gloves to solve the above-mentioned problems.
Disclosure of Invention
The invention aims to provide medical glove processing equipment and a use method thereof, wherein the rubber glove is inflated through an inflation structure to reach a certain pressure, and unqualified rubber gloves are damaged, so that the rubber gloves can be directly detected in the processing process, and the unqualified rubber gloves are discharged, and the later-stage independent detection is not needed, so that the processing and detection efficiency is improved, and the life and health of medical staff can be ensured.
In order to achieve the above purpose, the main technical scheme adopted by the invention comprises the following steps:
the medical glove processing equipment comprises a glove processing die body, wherein two side surfaces of the glove processing die body are respectively provided with an inflation groove, an inflation structure is fixedly arranged in the glove processing die body, the inflation structure comprises a bidirectional telescopic rod and a sealing plate, the bidirectional telescopic rod is connected with the inflation grooves in a clamping manner, and the bidirectional telescopic rod is used for sealing the inflation grooves;
one side of the air charging groove is provided with a plurality of air charging heads which are in central symmetry, and the air charging heads are communicated with an external air source through air guide pipes, wherein when the sealing plate is contracted, the air charging heads are communicated with the air charging groove;
through above technical scheme, after drying rubber gloves, through the inside of inflatable structure to rubber gloves, rubber gloves expand under gaseous extrusion, if qualified rubber gloves, even inflation can take place, if unqualified rubber gloves, then uneven inflation can take place, after reaching certain pressure, unqualified rubber gloves will take place to damage, consequently can directly detect rubber gloves at the in-process of processing, discharge unqualified rubber gloves, need not the later stage and carries out solitary detection, both promote the efficiency of processing and detection, can ensure medical staff's life and health.
Preferably, a processing mould bin is formed in the glove processing mould body, the air charging structure is arranged in the middle of the processing mould bin, the bidirectional telescopic rod is fixed in the processing mould bin through a supporting frame, a plurality of uniformly distributed air charging head bins are clamped on the glove processing mould body at the periphery of the air charging groove, the air charging heads are fixedly arranged in the air charging head bins and are communicated with the air charging groove, the bidirectional telescopic rod is fixedly arranged at two ends of the sealing plate, when an output shaft of the sealing plate is pushed out, the outer side face of the bidirectional telescopic rod is flush with the outer side face of the glove processing mould body, an air supply pipe is connected to the input end of the air charging head, and the air supply pipe is of an annular structure and is communicated with an external air source through the air supply pipe;
according to the technical scheme, after the rubber glove is dried, the sealing plate is contracted by starting the bidirectional telescopic rod, so that the sealing plate is sunken on the side face of the glove processing die body, the inflation heads in the inflation head bin are exposed in the inflation groove, the rotation motor inflates the rubber glove through the air guide pipe and the inflation groove again, and the inflation heads inflate the inflation groove simultaneously, so that the structure is simple;
when the sealing plate on the bidirectional telescopic rod is pushed outwards, the sealing plate is pushed outwards, and the sealing plate seals the inflation slot while sealing the inflation head, so that the sealing plate and the glove processing die body are used for shaping rubber gloves simultaneously when the sealing plate is clamped on the inflation slot, and the convenience of use is greatly improved;
when the gas pressure in the rubber glove reaches a certain value, the rubber glove can slide downwards along the glove processing die body, so that a worker can pinch the rubber glove downwards by hand to pull the rubber glove downwards, and then the rubber glove can be easily demoulded from the glove processing die body, and the glove processing die has a simple structure, improves the demoulding efficiency on one hand and improves the use convenience.
Preferably, a temperature sensor is fixedly arranged in the glove processing die body, a heating wire is connected to the temperature sensor, the heating wire is uniformly distributed in the processing die bin, a plurality of uniformly distributed heating plates are arranged on the heating wire, and the heating plates are used for heating the glove processing die body;
through above technical scheme, the inside in processing mould storehouse is provided with evenly distributed's heating wire to be provided with a plurality of evenly distributed's heating plate on the heating wire, consequently can heat rubber glove simultaneously to the inside and the outside of hand processing die body, promote the drying efficiency of rubber glove greatly.
Preferably, the upper portion of glove processing die body is connected with the die body connecting piece, the upper portion of die body connecting piece is connected with the die body connector, the air duct runs through the die body connector, fixedly provided with drive gear on the die body connector, the lateral surface of die body connecting piece is fixedly provided with rubber anti-skidding circle, rubber anti-skidding circle is used for fixed rubber glove.
Preferably, the die body connecting piece is rotationally connected with a driving box, the transmission gear is arranged in the driving box, a driving motor is fixedly arranged in the driving box, the output end of the driving motor is provided with a driving gear, the driving gear is rotationally connected with the transmission gear, the driving motor is used for rotating the glove processing die body, the upper end of the driving box is connected with a connecting pipe, and the air duct penetrates through the connecting pipe and extends to the outer side of the connecting pipe;
through above technical scheme, be connected with the drive case on the die body connecting piece, the inside of drive case is provided with the rotation motor, and the last drive gear of die body connecting head takes place to rotate under drive gear's effect, consequently after glove processing die body submergence in the colloid, both can stir the colloid, can make the colloid even smear on glove processing die body again to guarantee that the colloid is even smeared on glove processing die body, promote the quality of rubber glove.
Preferably, the pressure sensor is fixedly arranged on two side surfaces of the glove processing die body, the pressure sensor is in communication connection with an external display through a wire, and is used for detecting the pressure of the inflated rubber glove, fully detecting the performance of the rubber glove and ensuring the quality of the rubber glove.
The application method of the medical glove processing equipment comprises the following steps:
step one: the glove processing die body is immersed in the colloid, and the glove processing die body is rotated by starting a driving motor in the driving box, so that the colloid is fully covered on the glove processing die body;
step two: taking out the glove processing mould body after the sinking is finished from the colloid, and cleaning and drying the rubber glove and the glove processing mould body;
step three: starting an inflation structure in the inflation groove to detect and screen the rubber glove;
step four: demolding is completed during the ventilation detection.
The specific method for detection comprises the following steps:
firstly, starting an inflation structure in the inflation groove, and shrinking the sealing plate by the bidirectional telescopic rod to enable the outer side surface of the sealing plate to be sunken in the outer side surface of the processing mould bin;
then starting an inflation head to ventilate the inside of the inflation groove, so that the inside of the rubber glove is inflated, and the rubber glove is directly observed through appearance;
finally, when the air pressure in the rubber glove is increased, the rubber glove is extruded downwards, demolding is carried out, the uniformly-expanded rubber glove is qualified, and screening is carried out.
The invention has at least the following beneficial effects:
1. through the inside of inflatable structure to rubber glove, reach the certain pressure after, unqualified rubber glove will take place to damage, consequently can directly detect rubber glove at the in-process of processing, discharge unqualified rubber glove need not the later stage and carries out solitary detection, both promotes the efficiency of processing and detection, has the life and health that can ensure medical staff.
2. After rubber glove dries, make the closing plate shrink through starting two-way telescopic link, lead to the closing plate to cave in the side of glove processing die body, and will aerify the inside head that aerifys of first storehouse and expose in the inside of aerifing the groove, the motor that rotates is through the air duct and aerify to the inside of rubber glove through the groove that aerifing again, a plurality of is aerifyd the groove simultaneously, simple structure, because the both sides face of glove processing die body all is provided with the groove that aerifys, consequently can aerify the inside of rubber glove through the both sides face of glove processing die body, promote the efficiency of detection greatly.
Drawings
The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:
FIG. 1 is a second cross-sectional view of a glove processing phantom of the present invention;
FIG. 2 is a cross-sectional view of a glove processing phantom of the present invention;
FIG. 3 is a front view of a glove mold body of the present invention;
FIG. 4 is a perspective view of an inflatable structure of the present invention;
FIG. 5 is a cross-sectional view of an inflatable structure of the present invention;
fig. 6 is a cross-sectional view of the drive housing of the present invention.
In the figure, 1-glove processing mold body, 101-processing mold bin, 102-inflation groove, 103-inflation head bin, 104-support frame, 2-mold body connecting piece, 201-mold body connecting piece, 202-transmission gear, 3-driving box, 4-inflation structure, 401-bidirectional telescopic rod, 402-sealing plate, 5-rotation motor, 501-driving gear, 6-inflation head, 7-temperature sensor, 8-connecting pipe, 9-heating wire, 901-heating plate, 10-pressure sensor, 11-air duct, 12-rubber antiskid ring and 13-air duct.
Detailed Description
The embodiments of the present application will be described in detail below with reference to the accompanying drawings and examples, so that the implementation process of how the technical means are applied to solve the technical problems and achieve the technical effects of the present application can be fully understood and implemented accordingly.
As shown in fig. 1-6, the medical glove processing apparatus provided in this embodiment includes a glove processing mold body 1, two side surfaces of the glove processing mold body 1 are provided with inflatable grooves 102, an inflatable structure 4 is fixedly arranged in the glove processing mold body 1, the inflatable structure 4 includes a bidirectional telescopic rod 401 and a sealing plate 402, the bidirectional telescopic rod 401 is connected with the inflatable grooves 102 in a clamping manner, and the bidirectional telescopic rod 401 is used for sealing the inflatable grooves 102;
one side of the air charging groove 102 is provided with a plurality of air charging heads 6 which are symmetrical in center, the air charging heads 6 are communicated with an external air source through air guide pipes 11, and when the sealing plate 402 is contracted, the air charging heads 6 are communicated with the air charging groove 102.
And after the rubber glove is dried, the rubber glove is inflated through the inflation structure 4 to the inside of the rubber glove, the rubber glove expands under the extrusion of gas, even expansion can occur if the rubber glove is qualified, uneven expansion can occur if the rubber glove is unqualified, and the unqualified rubber glove is damaged after reaching a certain pressure, so that the rubber glove can be directly detected in the processing process, the unqualified rubber glove is discharged, the later stage is not required to be separately detected, the processing and detecting efficiency is improved, and the life and health of medical staff can be ensured.
A processing mould bin 101 is formed in the glove processing mould body 1, an inflatable structure 4 is arranged in the middle of the processing mould bin 101, and a bidirectional telescopic rod 401 is fixed in the processing mould bin 101 through a support frame 104;
the circumference of the inflation slot 102 is provided with a plurality of evenly distributed inflation head cabins 103 in a clamping way on the glove processing die body 1, the inflation head 6 is fixedly arranged in the inflation head cabins 103, and the inflation head cabins 103 are communicated with the inflation slot 102;
the bidirectional telescopic rods 401 are fixedly arranged at two ends of the sealing plate 402, wherein when the output shaft of the sealing plate 402 is pushed out, the outer side surfaces of the bidirectional telescopic rods 401 are flush with the outer side surfaces of the glove processing die body 1.
The input end of the air charging head 6 is connected with an air supply pipe 13, the air supply pipe 13 is of an annular structure, and the air supply pipe 13 is communicated with an external air source through an air guide pipe 11.
After the rubber glove is dried, the sealing plate 402 is contracted by starting the bidirectional telescopic rod 401, so that the sealing plate 402 is sunken on the side surface of the glove processing die body 1, the air inflation heads 6 in the air inflation head bin 103 are exposed in the air inflation groove 102, the rotating motor 5 inflates the rubber glove through the air guide pipe 11 and the air inflation groove 102 again, and the plurality of air inflation heads 6 simultaneously inflate the air inflation groove 102, so that the structure is simple, and as the two side surfaces of the glove processing die body 1 are provided with the air inflation grooves 102, the two sides of the glove processing die body 1 can be inflated to the rubber glove, and the detection efficiency is greatly improved;
further, when the sealing plate 402 on the bidirectional telescopic rod 401 is pushed outwards, the sealing plate 402 is pushed outwards, and the sealing plate 402 seals the inflation slot 102 while sealing the inflation head 6, so that when the sealing plate 402 is clamped on the inflation slot 102, the sealing plate 402 and the glove processing die body 1 shape rubber gloves at the same time, and the convenience of use is greatly improved;
further, when the gas pressure in the rubber glove reaches a certain value, the rubber glove can slide downwards along the glove processing die body 1, so that a worker can pinch the rubber glove by hand to pull downwards, and then the rubber glove can be easily demoulded from the glove processing die body 1, the structure is simple, the demoulding efficiency is improved on the one hand, and the use convenience is improved.
The inside of glove processing die body 1 is fixed and is provided with temperature sensor 7, is connected with heating wire 9 on the temperature sensor 7, and the inside in processing die storehouse 101 is evenly distributed to heating wire 9, is provided with a plurality of evenly distributed's heating plate 901 on the heating wire 9, and heating plate 901 is used for heating glove processing die body 1.
The inside of processing mould storehouse 101 is provided with evenly distributed's heating wire 9 to be provided with a plurality of evenly distributed's heating plate 901 on the heating wire 9, consequently can heat rubber glove simultaneously to the inside and the outside of hand processing mould body 1, promote the drying efficiency of rubber glove greatly.
In this embodiment, as shown in fig. 6, a die body connecting piece 2 is connected to the upper portion of the glove processing die body 1, a die body connector 201 is connected to the upper portion of the die body connecting piece 2, an air duct 11 penetrates through the die body connector 201, and a transmission gear 202 is fixedly arranged on the die body connector 201;
the outer side surface of the die body connecting piece 2 is fixedly provided with a rubber anti-slip ring 12, the rubber anti-slip ring 12 is used for fixing rubber gloves, the die body connecting piece 2 is rotationally connected with a driving box 3, a transmission gear 202 is arranged in the driving box 3, a driving motor 5 is fixedly arranged in the driving box 3, the output end of the driving motor 5 is provided with a driving gear 501, the driving gear 501 is rotationally connected with the transmission gear 202, the driving motor 5 is used for rotating the glove processing die body 1, the upper end of the driving box 3 is connected with a connecting pipe 8, and an air duct 11 penetrates through the connecting pipe 8 and extends to the outer side of the connecting pipe 8;
the die body connecting piece 2 is connected with the driving box 3, the rotating motor 5 is arranged in the driving box 3, and the transmission gear 202 on the die body connecting piece 201 rotates under the action of the driving gear 501, so that after the glove processing die body 1 is immersed in the colloid, the colloid can be stirred and can be uniformly smeared on the glove processing die body 1, the colloid is uniformly smeared on the glove processing die body 1, and the quality of rubber gloves is improved.
In this embodiment, as shown in fig. 3, pressure sensors 10 are fixedly arranged on both side surfaces of the glove processing mold body 1, and the pressure sensors 10 are in communication connection with an external display through wires;
the pressure sensor 10 is used for detecting the pressure of the inflated rubber glove, fully detecting the performance of the rubber glove and ensuring the quality of the rubber glove.
As shown in fig. 1 to 6, the method for using the medical glove processing apparatus provided in this embodiment includes the following steps:
step one: the glove processing mould body 1 is immersed in the colloid, and the glove processing mould body 1 is rotated by starting a driving motor 5 in a driving box 3, so that the colloid is fully covered on the glove processing mould body 1;
step two: taking out the glove processing mould body 1 after the sinking is finished from the colloid, and cleaning and drying the rubber glove and the glove processing mould body 1;
step three: starting an inflation structure 4 in the inflation groove 102 to detect and screen the rubber glove;
step four: demolding is completed during the ventilation detection.
The specific detection method comprises the following steps:
firstly, starting an inflatable structure 4 in an inflatable tank 102, and shrinking a sealing plate 402 by a bidirectional telescopic rod 401 to enable the outer side surface of the sealing plate 402 to be recessed on the outer side surface of a processing die bin 101;
then starting the inflation head 6 to ventilate the inside of the inflation groove 102, so that the inside of the rubber glove is inflated, and the rubber glove is directly observed through the appearance;
finally, when the air pressure in the rubber glove is increased, the rubber glove is extruded downwards, demolding is carried out, the uniformly-expanded rubber glove is qualified, and screening is carried out.
Certain terms are used throughout the description and claims to refer to particular components. Those of skill in the art will appreciate that a hardware manufacturer may refer to the same component by different names. The description and claims do not take the form of an element differentiated by name, but rather by functionality. As used throughout the specification and claims, the word "comprise" is an open-ended term, and thus should be interpreted to mean "include, but not limited to. By "substantially" is meant that within an acceptable error range, a person skilled in the art can solve the technical problem within a certain error range, substantially achieving the technical effect.
It should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a product or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such product or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude that an additional identical element is present in a commodity or system comprising the element.
While the foregoing description illustrates and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as limited to other embodiments, and is capable of numerous other combinations, modifications and environments and is capable of changes or modifications within the scope of the inventive concept as described herein, either as a result of the foregoing teachings or as a result of the knowledge or technology in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.