Disclosure of Invention
The invention aims to solve the defects in the prior art, and provides an intelligent disinfection device for rubber glove production and a use method thereof.
In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides an intelligent disinfection device is used in rubber glove production, including the disinfection box, the clean room that is used for preliminary clean is offered in the inside left side of disinfection box, and the inside of disinfection box is close to the clean room right side position department and is offered the bleaching room that is used for bleaching the mould, the inside of disinfection box is located the right side position department of bleaching room and has been offered the scrubbing room, and the inside of disinfection box is located the right side position department of scrubbing room and has been offered the high temperature disinfection room that is used for disinfecting the mould high temperature, clean room, bleaching room and the scrubbing room of disinfection box inside are separated through three fixed connection baffle on the disinfection box inner wall and form;
the middle position of the upper end surface of the disinfection box body is fixedly provided with a conveying mechanism for installing and moving the mould, the left sides of the front and rear inner walls of the decontamination chamber are provided with first brushing mechanisms in a front-rear symmetrical way, the right sides of the front and rear inner walls of the decontamination chamber are provided with second brushing mechanisms in a front-rear symmetrical way, the front and rear surfaces of the disinfection box body are provided with driving mechanisms for driving the second brushing mechanisms at positions close to the second brushing mechanisms, the driving mechanisms are used for driving the second brushing mechanisms to perform lateral active swing in the process of reciprocating brushing in the front-rear direction, and secondary flushing mechanisms for secondarily decontaminating and flushing the mould are arranged in partition plates positioned at the two sides of the decontamination chamber in the disinfection box body;
The ceramic mould for producing rubber gloves is arranged on the conveying mechanism, moves from left to right along with the conveying mechanism, sequentially passes through a cleaning chamber and a bleaching chamber which are provided with soapy water and bleaching agent, enters a decontamination chamber for cleaning, and finally is immersed into a high-temperature disinfection chamber which is provided with hot water for cleaning and high-temperature disinfection.
Preferably, the conveying mechanism comprises a linear slide rail fixedly mounted at the middle position of the upper end surface of the sterilizing box body, a sliding belt is mounted on the upper end surface of the linear slide rail in a sliding manner, a first connecting column is distributed in a linear array manner in front of and behind the sliding belt, one end of the first connecting column, which is far away from the sliding belt, is rotationally connected with a rotating seat, one end, which is far away from the sliding belt, of the rotating seat is hinged with a ceramic hand mold mounting seat, a threaded mounting hole for mounting a ceramic mold is formed in one side surface, which is far away from the sliding belt, of the ceramic hand mold mounting seat, a roller is fixedly connected with the outer side surface of the ceramic hand mold mounting seat, and a guide slide rail matched with the roller is fixedly mounted on the front surface and the rear surface of the linear slide rail, which is located below the first connecting column.
Preferably, the first brushing mechanism comprises a first driving motor fixedly arranged on the front surface and the rear surface of the disinfection box body, a first connecting shaft connected with an output shaft of the first driving motor is rotationally connected at the position, close to the first driving motor, of the front inner wall and the rear inner wall of the disinfection box body, and a first decontamination brush disc is fixedly arranged at one end, far away from the first driving motor, of the first connecting shaft.
Preferably, the driving mechanism comprises a motor mounting seat fixedly mounted on the front and rear surfaces of the disinfection box body and a mounting connecting seat which is symmetrically and fixedly mounted on the front and rear inner walls of the disinfection box body, the upper end surfaces of the motor mounting seat are respectively and rotationally connected with a driving wheel, the lower end surfaces of the motor mounting seat are respectively and fixedly provided with a second driving motor, an output shaft of the second driving motor is connected with the driving wheel, a mounting plate is fixedly mounted at the position, close to the motor mounting seat, of one side of the mounting connecting seat far away from the disinfection box body, a driven wheel parallel to the driving wheel is rotatably connected inside the mounting plate, the surfaces of the driving wheel and the driven wheel are provided with matched transmission belts, the disinfection box body and the mounting connecting seat are provided with connecting through holes for communicating the transmission belts between the driving wheel and the driven wheel, the front and rear symmetrically and fixedly mounted on the mounting connecting seat are respectively and rotationally connected with an inner connecting pipe at the lower end of one side surface of the inner wall of the disinfection box body, one end of the inner connecting pipe far away from the mounting connecting seat is sheathed with an outer connecting sleeve, one end of the outer connecting sleeve is connected with the second brush mechanism, the upper end surface of the outer connecting sleeve is fixedly connected with the mounting plate, a spherical movable key groove is formed in the middle position of the upper end surface of the mounting plate, a movable key groove is fixedly connected with a movable key groove, and a movable key seat is fixedly connected with the movable shaft of the movable key post, and fixedly connected with the movable shaft on the movable key post, and the movable key is fixedly connected with the movable shaft;
When the driving wheel is used, the second driving motor is started to drive the driving wheel to rotate, and then the driven wheel is driven to rotate.
Preferably, the second brushing mechanism comprises a third driving motor, the third driving motor is fixedly connected to one end of the outer connecting sleeve, which is far away from the inner connecting tube, and the output end of the third driving motor is fixedly connected with a second decontamination brushing disc.
Preferably, the secondary flushing mechanism comprises a transverse linkage rod, a transverse sliding groove, an outer cavity and an inner chamber, wherein the transverse sliding groove is formed in the surface of one side, close to the decontamination chamber, of a partition plate positioned at two sides of the decontamination chamber, the transverse sliding groove is parallel to the transverse linkage rod, the left end and the right end of the transverse linkage rod extend into the transverse sliding groove and are in sliding connection with the transverse sliding groove, a third connecting column is fixedly arranged on the surface of one side, far away from the disinfection box, of the transverse linkage rod, a connecting piston is fixedly connected to one end, far away from the disinfection box, of the transverse linkage rod, two outer cavities are formed in the partition plate, distributed in the vertical direction, an inner chamber formed in the partition plate and positioned between the two outer cavities is arranged, the outer side surface of the connecting piston is tightly attached to the inner wall of the inner chamber, a first one-way valve and a second one-way valve are respectively communicated between the two ends of the inner bottom surface of the outer cavity positioned above and the inner chamber, and a third one-way valve and a fourth one-way valve are respectively communicated between the two ends of the inner top surface of the outer cavity positioned below the inner cavity and the inner chamber;
The secondary flushing mechanism further comprises a water inlet and a nozzle assembly, the lower brush disc is used for cleaning the nozzle, the water inlet is formed in the inner wall of one side of the partition board close to the decontamination chamber, the height of the water inlet is lower than that of the water surface inside the decontamination chamber, the water inlet is communicated with the outer cavity below, and the nozzle assembly is connected to the inner wall of one side of the partition board close to the decontamination chamber and is communicated with the upper end of the outer cavity.
Preferably, the spray head assembly comprises a lower brush disc cleaning spray head, the lower brush disc cleaning spray head is arranged on the inner wall of one side of the baffle close to the decontamination chamber, the height of the lower brush disc cleaning spray head is higher than the height of the inner water surface of the decontamination chamber, the tail ends of the lower brush disc cleaning spray heads positioned on two sides face the lower ends of the first decontamination brush disc and the second decontamination brush disc respectively, square empty slots are formed in the positions, close to the lower brush disc cleaning spray head, of the baffle, and the empty slots are respectively communicated with the outer cavity above.
Preferably, the surface of one side, close to the decontamination chamber, of the baffle plate positioned on the right side of the decontamination chamber is also provided with an upper ceramic mold cleaning spray head positioned above the lower brush disc cleaning spray head, the upper ceramic mold cleaning spray head is communicated with the empty slot, and the tail end of the upper ceramic mold cleaning spray head faces the upper end of the second decontamination brush disc;
Preferably, the front and rear surfaces of the disinfection box body are provided with connecting pipe orifices for water supply and water discharge at positions close to the decontamination chamber, and are connected with the connecting pipe orifices through external pipelines when in use;
the pipeline that is located the place ahead supplies water to it through the connecting pipe mouth in disinfection box the place ahead, and the pipeline that is located the rear goes out water through the connecting pipe mouth at disinfection box the rear for the inside surface of water of scrubbing room keeps invariable height, and the water stream that flows can take away the spot of scrubbing in-process unloading, keeps the relative clean of the inside rivers of scrubbing room, reduces the spot and piles up the possibility that the ceramic mold surface was sputtered to the secondary in water.
According to the intelligent disinfection device for rubber glove production, the use method of the intelligent disinfection device for rubber glove production is also provided, and the intelligent disinfection device comprises the following steps:
s1: the ceramic die is arranged on a ceramic hand die mounting seat and moves from left to right along with the sliding belt;
s2: the moving ceramic mould sequentially passes through a cleaning chamber and a bleaching chamber which are provided with soapy water and bleaching agent, then enters a decontamination chamber for cleaning, and finally is immersed into a high-temperature disinfection chamber which is provided with hot water for cleaning and high-temperature disinfection;
S3: the moving ceramic mould enters a decontamination chamber and is cleaned by a first brushing mechanism and a second brushing mechanism;
s4: and a secondary flushing mechanism inside the decontamination chamber flushes residues on the surface of the ceramic mold and residual stains in the bristles of the second decontamination brush disc in the cleaning process.
Compared with the prior art, the invention has the following beneficial effects:
this intelligent degassing unit is used in rubber glove production and application method thereof: through being provided with second brush mechanism and cooperating first brush mechanism, in the clearance in-process, from clearing up the surface of ceramic mould to each angle, reduce the possibility that the product quality was influenced to the residual spot in ceramic mould finger gap.
This intelligent degassing unit is used in rubber glove production and application method thereof: through being provided with secondary and flushing the mechanism, can clear up remaining soapy water and bleach on ceramic hand mould surface at the scrubbing in-process, simultaneously at first brushing mechanism and second brushing mechanism's clearance in-process, wash the spot first time of attaching on the brush hair surface, avoid the spot to pile up between the brush hair, at scrubbing in-process elasticity brush hair with spot secondary sputter to ceramic hand mould surface.
Detailed Description
The following description is presented to enable one of ordinary skill in the art to make and use the invention. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art.
As shown in fig. 1 to 14, an intelligent sterilizing device for producing rubber gloves and a using method thereof are disclosed, the intelligent sterilizing device for producing rubber gloves comprises a sterilizing box body 1, a cleaning chamber 3 for preliminary cleaning is arranged on the left side of the inside of the sterilizing box body 1, a bleaching chamber 4 for bleaching a mold is arranged at the right side position of the inside of the sterilizing box body 1, a decontamination chamber 5 is arranged at the right side position of the bleaching chamber 4 in the inside of the sterilizing box body 1, a high-temperature sterilizing chamber 6 for sterilizing the mold at a high temperature is arranged at the right side position of the decontamination chamber 5 in the inside of the sterilizing box body 1, and the cleaning chamber 3, the bleaching chamber 4 and the decontamination chamber 5 in the inside of the sterilizing box body 1 are separated by three partition boards 101 fixedly connected to the inner wall of the sterilizing box body 1;
a conveying mechanism for installing and moving the mold is fixedly arranged in the middle position of the upper end surface of the disinfection box body 1, first brushing mechanisms are symmetrically arranged on the left side of the front and rear inner walls of the decontamination chamber 5, second brushing mechanisms are symmetrically arranged on the right side of the front and rear inner walls of the decontamination chamber 5, a driving mechanism for driving the second brushing mechanisms is arranged on the front and rear surface of the disinfection box body 1 at the position close to the second brushing mechanisms, the driving mechanism is used for driving the second brushing mechanisms to perform lateral active swing in the process of performing reciprocating movement brushing in the front and rear direction, and secondary flushing mechanisms for secondarily decontaminating and flushing the mold are arranged in partition plates 101 in the positions of two sides of the decontamination chamber 5 in the disinfection box body 1;
The ceramic mould for producing rubber gloves is arranged on a conveying mechanism, moves from left to right along with the conveying mechanism, sequentially passes through a cleaning chamber 3 and a bleaching chamber 4 which are provided with soapy water and bleaching agent, enters a decontamination chamber 5 for cleaning, and finally is immersed into a high-temperature disinfection chamber 6 which is provided with hot water for cleaning and high-temperature disinfection.
As an embodiment of the present invention, as shown in fig. 1 to 14: the conveying mechanism comprises a linear slide rail 204 fixedly arranged at the middle position of the upper end surface of the sterilizing box body 1, a sliding belt 2 is slidably arranged on the upper end surface of the linear slide rail 204, first connecting columns 202 which are distributed in a linear array are fixedly arranged on the front and rear surfaces of the sliding belt 2, one end of each first connecting column 202, which is far away from the sliding belt 2, is rotatably connected with a rotating seat 206, one end of each rotating seat 206, which is far away from the sliding belt 2, is hinged with a ceramic hand mold mounting seat 201, a threaded mounting hole for mounting a ceramic mold is formed in the surface of one side, which is far away from the sliding belt 2, of each ceramic hand mold mounting seat 201, a roller 205 is fixedly connected with the outer side surface of each ceramic hand mold mounting seat 201, and guide slide rails 203 matched with the rollers 205 are fixedly arranged on the positions, which are located below the first connecting columns 202, of the front and rear surfaces of the linear slide rail 204;
When the ceramic hand die mounting seat 201 provided with the ceramic die moves from left to right along the sliding belt 2, meanwhile, the roller 205 on the surface of the ceramic hand die mounting seat 201 rolls along the guide sliding rail 203 to drive the ceramic hand die mounting seat 201 and the rotating seat 206 to rotate in the moving process, the guide sliding rail 203 faces upwards at the positions close to the upper parts of the left inner wall and the right inner wall of the disinfection box body 1 and the partition plate 101, the guide sliding rail 203 faces to one side far away from the sliding belt 2 at the positions close to the upper parts of the cleaning chamber 3, the bleaching chamber 4, the decontamination chamber 5 and the high-temperature disinfection chamber 6, and the direction of the roller 205 changes along the guide sliding rail 203 in the rolling process of the roller 205, when the ceramic hand die mounting seat 201 provided with the ceramic die is positioned at the positions above the left inner wall and the right inner wall of the disinfection box body 1 and the partition plate 101, the ceramic die is horizontally placed, and when the ceramic hand die mounting seat 201 provided with the ceramic die moves to the upper parts of the cleaning chamber 3, the bleaching chamber 4, the decontamination chamber 5 and the high-temperature disinfection chamber 6, and the ceramic die extends downwards into the cleaning chamber 3, the bleaching chamber 4 and the interior of the decontamination chamber 5 and the high-temperature disinfection chamber 6;
the guiding sliding rail 203 has a plurality of linear proximal ends and a plurality of protruding distal ends, and the track groove of the guiding sliding rail leaves a certain space for the roller 205, so that the roller 205 can move and turn over from the linear proximal ends to the protruding distal ends in the process of changing, the phenomenon of blocking is avoided, the roller smoothly turns over, the plurality of linear proximal ends are respectively located above the corresponding partition plate 101, and the plurality of protruding distal ends are respectively located above the cleaning chamber 3, the bleaching chamber 4, the decontamination chamber 5 and the high-temperature disinfection chamber 6.
As an embodiment of the present invention, as shown in fig. 1 to 14: the first brushing mechanism comprises a first driving motor 7 fixedly arranged on the front surface and the rear surface of the disinfection box body 1, a first connecting shaft 702 connected with the output shaft of the first driving motor 7 is rotatably connected to the positions, close to the first driving motor 7, of the front inner wall and the rear inner wall of the disinfection box body 1, and a first decontamination brushing plate 701 is fixedly arranged at one end, far away from the first driving motor 7, of the first connecting shaft 702;
when the ceramic hand mold mounting seat 201 provided with the ceramic mold moves to the inside of the decontamination chamber 5, the first connecting shaft 702 is driven by the first driving motor 7 to keep rotating, the lower end of the first connecting shaft 702 is immersed in the water surface inside the decontamination chamber 5, the ceramic mold rotates in the moving process and passes through between the two groups of first connecting shafts 702, the first connecting shaft 702 brushes the pollutants on the surface of the ceramic mold, the brushed pollutants fall into water, and the pollutants stained on the first connecting shaft 702 also fall into water when immersed in water.
As an embodiment of the present invention, as shown in fig. 1 to 14: the driving mechanism comprises a motor mounting seat 8 fixedly mounted on the front and rear surfaces of the disinfection box body 1 and a mounting connection seat 9 which is symmetrically and fixedly mounted on the front and rear inner walls of the disinfection box body 1, a driving wheel 801 is rotatably connected to the upper end surfaces of the motor mounting seat 8, a second driving motor 803 is fixedly mounted on the lower end surfaces of the motor mounting seat 8, an output shaft of the second driving motor 803 is connected with the driving wheel 801, a mounting plate 806 is fixedly mounted at the position, close to the motor mounting seat 8, of one side, of the mounting connection seat 9 far from the disinfection box body 1, a driven wheel 805 parallel to the driving wheel 801 is rotatably connected to the inside of the mounting plate 806, a transmission belt 804 matched with the surfaces of the driving wheel 801 is mounted on the surfaces of the driving wheel 801 and the driven wheel 805, a connecting through hole 802 for communicating the transmission belt 804 is formed between the driving wheel 801 and the driven wheel 805, an inner connecting pipe 909 is symmetrically and fixedly mounted on the lower end surface of one side, far from the inner wall of the mounting connection seat 9, an outer connecting sleeve 903 is sleeved on the outer side, one end, far from the inner connecting sleeve 903, of the inner connecting sleeve is fixedly connected with the inner connecting sleeve 903, a second connecting sleeve is fixedly connected with an inner connecting sleeve 908, a second connecting sleeve is fixedly connected with a groove 908 is fixedly connected to the inner shaft of the second connecting groove 908, a connecting groove is fixedly connected to the inner shaft of the sealing joint is movably mounted on the inner shaft of the sealing sleeve is movably mounted on the sealing joint groove, a connecting rod is movably connected to the inner shaft of the sealing joint is movably mounted on the sealing joint groove, and a connecting rod is movably mounted on the inner shaft is movably connected to the shaft of the sealing joint is mounted, and is movably connected to the shaft arranged, and is movably mounted to the shaft arranged;
In use, the second driving motor 803 is turned on to drive the driving wheel 801 to rotate, and then drive the driven wheel 805 to rotate.
The second brushing mechanism comprises a third driving motor, the third driving motor is fixedly connected to one end of the outer connecting sleeve 903, which is far away from the inner connecting tube 909, and the output end of the third driving motor is fixedly connected with a second decontamination brush disc 901;
when the driven wheel 805 rotates, the connecting shaft 905 is driven to synchronously rotate, the rotating rod 904 on the lower surface of the connecting shaft 905 is driven to circumferentially rotate, when the rotating rod 904 rotates to one end far away from the installation connecting seat 9, the outer connecting sleeve 903 is driven to move to one side far away from the installation connecting seat 9, when the rotating rod 904 rotates to the left side, the outer connecting sleeve 903 moves to one end close to the installation connecting seat 9 for a distance and deflects, and when the rotating rod 904 moves to one side close to the installation connecting seat 9, the outer connecting sleeve 903 also synchronously moves to the installation connecting seat 9;
through the rotation of the rotating rod 904, the outer connecting sleeve 903 is driven to turn over when in back and forth reciprocating movement, so that the second decontamination brush plate 901 fixedly connected with the outer connecting sleeve 903 also moves in the same track, after the ceramic mold is cleaned by the first brushing mechanism, the surface of the ceramic mold is decontaminated by the second decontamination brush plate 901 attached to the ceramic mold in the front-back direction for the second time, the second decontamination brush plate 901 is driven by the third driving motor to continuously rotate, and the second decontamination brush plate 901 is driven by the third driving motor to reciprocate and slightly deflect while keeping rotating, simulates wiping action, and cleans dead angle parts which may not be cleaned by scraping for the first time.
As an embodiment of the present invention, as shown in fig. 1 to 14: the secondary flushing mechanism comprises a transverse linkage rod 902, a transverse sliding chute 10, an outer cavity 1007 and an inner cavity 1005, wherein the transverse sliding chute 10 is arranged on the surface of one side, close to the decontamination chamber 5, of a partition board 101 positioned at two sides of the decontamination chamber 5, the transverse sliding chute 10 is parallel to the transverse linkage rod 902, the left end and the right end of the transverse linkage rod 902 extend into the transverse sliding chute 10 and are in sliding connection with the transverse sliding chute 10, a third connecting column 1006 is fixedly arranged on the surface of one side, far from the disinfection box body 1, of the transverse linkage rod 902, one end, far from the transverse linkage rod 902, of the third connecting column 1006 is fixedly connected with a connecting piston 1004, two outer cavities 1007 which are arranged in the partition board 101 are distributed in the vertical direction, an inner cavity 1005 which is arranged in the partition board is arranged between the two outer cavities, the outer surfaces of the connecting piston 1004 are tightly attached to the inner wall of the inner cavity 1005, two ends of the inner bottom surface of the outer cavity 1007 positioned above are respectively communicated with a first one-way valve 1005-1 and a second one-way valve 1005-2, one-way valve 1005-4-way valve 1005-two ends of the inner cavity 1005-3-one-way valve 1005-4 are respectively arranged between the outer cavity 1005 positioned below the top surface and the inner cavity 1005-one-4-way valve-two ends are respectively;
The third and fourth check valves 1005-3 and 1005-4 are opened only when an upward pressure is applied, and the water flow inside the lower outer chamber 1007 is introduced into the inner chamber 1005, and the first and second check valves 1005-1 and 1005-2 are opened only when an upward pressure is applied, and the water flow inside the inner chamber 1005 is introduced into the upper outer chamber 1007.
The secondary flushing mechanism further comprises a water inlet 1001 and a nozzle assembly, the lower brush disc cleans the nozzle 1003, the water inlet 1001 is arranged on the inner wall of one side of the partition board 101 close to the decontamination chamber 5, the height of the water inlet 1001 is lower than the height of the water surface in the decontamination chamber 5, the water inlet 1001 is communicated with the outer cavity 1007 below, and the nozzle assembly is connected on the inner wall of one side of the partition board 101 close to the decontamination chamber 5 and is communicated with the upper end of the outer cavity 1007;
as an embodiment of the present invention, as shown in fig. 1 to 14: the spray head assembly comprises a lower brush disc cleaning spray head 1003, the lower brush disc cleaning spray head 1003 is arranged on the inner wall of one side of the partition board 101 close to the decontamination chamber 5, the height of the lower brush disc cleaning spray head 1003 is higher than the height of the water surface in the decontamination chamber 5, the tail ends of the lower brush disc cleaning spray heads 1003 positioned at two sides face the lower ends of the first decontamination brush disc 701 and the second decontamination brush disc 901 respectively, square empty grooves 1002-1 are formed in the position, close to the lower brush disc cleaning spray head 1003, of the partition board 101, and the empty grooves 1002-1 are communicated with an outer cavity 1007 above;
As shown in fig. 10 and 11: in an initial state, the connecting piston 1004 is positioned at an initial position close to one side of the lower brush cleaning spray head 1003, the connecting piston 1004 closely attached to the inner chamber 1005 divides the inner chamber 1005 into two air chambers, when the outer connecting sleeve 903 reciprocates, the connecting rod 902 connected with the connecting piston 1004 is driven to reciprocate, so that the connecting rod 902 reciprocates along the transverse chute 10, and when the connecting piston 1004 is driven by the connecting rod 902 to move from the initial position to a direction away from the lower brush cleaning spray head 1003;
the air chamber space at one side close to the lower brush plate cleaning spray head 1003 is increased, the air pressure in the air chamber is changed, the first one-way valve 1005-1 and the third one-way valve 1005-3 which are positioned at the upper and lower positions of the air chamber at one side close to the lower brush plate cleaning spray head 1003 are subjected to the pressure from the upper outer chamber 1007 to the inner chamber 1005, the first one-way valve 1005-1 positioned above is kept closed, the third one-way valve 1005-3 positioned below is opened, the water flow in the decontamination chamber 5 is sucked into the outer chamber 1007 positioned below from the water inlet 1001, and the water flow in the outer chamber 1007 positioned below is sucked into the air chamber at one side close to the lower brush plate cleaning spray head 1003; the air pressure in the air chamber at the side far from the lower brush cleaning spray head 1003 is also changed, the second one-way valve 1005-2 and the fourth one-way valve 1005-4 at the upper and lower positions of the air chamber at the side far from the lower brush cleaning spray head 1003 are subjected to the pressure from the inner chamber 1005 to the upper and lower outer chambers 1007, the fourth one-way valve 1005-4 at the lower part is kept closed, the second one-way valve 1005-2 at the upper part is opened, the water flow at the side far from the air chamber at the side far from the lower brush cleaning spray head 1003 is pushed upwards into the upper outer chamber 1007, and finally is immersed into the empty groove 1002-1 to be sprayed out by the spray head assembly;
Similarly, when the cross link lever 902 pushes the connecting piston 1004 to return to the initial position from the side far from the lower brush cleaning nozzle 1003, the air pressure in the air chamber at the side close to the lower brush cleaning nozzle 1003 changes, the first check valve 1005-1 and the third check valve 1005-3 at the upper and lower positions of the air chamber at the side close to the lower brush cleaning nozzle 1003 are subjected to the pressure from the inner chamber 1005 to the upper and lower outer chambers 1007, the first check valve 1005-1 at the upper part is opened, the third check valve 1005-3 at the lower part is kept closed, the water in the air chamber at the side close to the lower brush cleaning nozzle 1003 in the inner chamber 1005 is pushed upwards into the outer chamber 1007 at the upper part, and finally immersed in the empty groove 1002-1 to be sprayed out by the nozzle assembly; the air pressure in the air chamber at the side far away from the lower brush cleaning nozzle 1003 is also changed, the second one-way valve 1005-2 and the fourth one-way valve 1005-4 at the upper and lower positions of the air chamber at the side far away from the lower brush cleaning nozzle 1003 are subjected to the pressure from the upper and lower outer chambers 1007 to the inner chamber 1005, the fourth one-way valve 1005-4 at the lower part is opened, the second one-way valve 1005-2 at the upper part is closed, the water flow in the decontamination chamber 5 is sucked into the outer chamber 1007 at the lower part through the water inlet 1001, and the water flow in the outer chamber 1007 at the lower part is sucked into the air chamber at the side far away from the lower brush cleaning nozzle 1003 in the inner chamber 1005;
In the spray head assembly, water flows sprayed by the lower brush disc cleaning spray heads 1003 on two sides face the lower ends of the first decontamination brush disc 701 and the second decontamination brush disc 901 respectively, when the first decontamination brush disc 701 and the second decontamination brush disc 901 which are stained with stains after decontamination are immersed in water, the positions, close to the water surface, of the second decontamination brush disc 901 are flushed by the water flows sprayed by the lower brush disc cleaning spray heads 1003, and before the second decontamination brush disc 901 and the first decontamination brush disc 701 scrape the stains on the surface of a mould and rotate and immerse the stains on the water surface, the residual stains are taken out at first time, the residues of the stains on the surfaces of the first decontamination brush disc 701 and the second decontamination brush disc 901 are reduced, the service lives of the first decontamination brush disc 701 and the second decontamination brush disc 901 are prolonged, the pollutants between the first decontamination brush disc 701 and the second decontamination brush disc 901 are well reduced, and the secondary pollution caused by the mould bristles on the residual stains between the first decontamination brush disc 701 and the second decontamination brush disc 901 is avoided;
and the whole flushing concrete process is as follows: when the outer connecting sleeve 903 pushes the second decontamination brush disc 901 to approach the ceramic mold hand, the outer connecting sleeve 903 is synchronously driven by the transverse linkage rod 902 to drive the connecting piston 1004 to continuously reciprocate, and water flow in the decontamination chamber 5 is sprayed out by the spray head assembly to flush the first decontamination brush disc 701 and the second decontamination brush disc 901;
In the use process, if the first scrubbing brush plate 701 and the second scrubbing brush plate 901 are immersed in a large amount of water, water is stimulated by rapid rotation, and secondary pollution is possibly generated by splash of water stained with stains, so that the lower ends of the first scrubbing brush plate 701 and the second scrubbing brush plate 901 are only slightly immersed in the water, and in this case, if the water level is lowered, the first scrubbing brush plate 701 and the second scrubbing brush plate 901 are separated from the water, so that the stains are immersed in the water;
in this embodiment, the water flow is relaxed and uniform and sucked into the outer cavity 1007 and then sprayed out for flushing, when the water flows of the upper ceramic mold cleaning spray head 1002 and the lower brush plate cleaning spray head 1003 are continuously sprayed out, the water flow remained in the outer cavity 1007 and the inner cavity 1005 is constant, the height of the water surface in the decontamination chamber 5 cannot be greatly changed, the depth of the first decontamination brush plate 701 and the second decontamination brush plate 901 immersed in the water surface is constant, after cleaning is finished, the spray head assembly liquid stops flushing, external control is not needed, and the two synchronous operations are performed.
As an embodiment of the present invention, as shown in fig. 1 to 14: an upper ceramic mold cleaning nozzle 1002 positioned above the lower brush disc cleaning nozzle 1003 is further arranged on the surface of one side, close to the decontamination chamber 5, of the baffle plate 101 positioned on the right side of the decontamination chamber 5, the upper ceramic mold cleaning nozzle 1002 is communicated with the empty groove, and the tail end of the upper ceramic mold cleaning nozzle 1002 faces the upper end of the second decontamination brush disc 901;
When the ceramic mold is decontaminated, the soapy water and the bleaching agent still have a small amount of residues on the surface of the ceramic mold during decontamination, the decontamination process can only remove stains, the auxiliary liquid cleaning effect is limited, the residual soapy water and the bleaching agent can only be treated when the residual soapy water and the bleaching agent are soaked in hot water in the high-temperature disinfection chamber 6, but due to the large production amount, a large amount of soapy water and bleaching agent can be remained in the high-temperature disinfection chamber 6 after the ceramic mold is soaked, and the hot water needs to be replaced frequently, otherwise, the surface of the ceramic mold can remain with the soapy water and the bleaching agent, and the product quality can be affected when the rubber is smeared.
As one embodiment of the invention, the front and rear surfaces of the sterilizing box body 1 are provided with connecting pipe orifices 501 for water supply and water discharge at the positions close to the decontamination chamber 5, and are connected with the connecting pipe orifices 501 through externally connected pipelines in use;
The pipeline in front supplies water to the disinfection box body 1 through the connecting pipe orifice 501 in front of the disinfection box body, and the pipeline in rear supplies water through the connecting pipe orifice 501 in rear of the disinfection box body 1, so that the water surface in the decontamination chamber 5 is kept at a constant height, and flowing water flow can take away dirt discharged in the decontamination process, keep the relative cleanliness of the water flow in the decontamination chamber 5, and reduce the possibility that dirt is accumulated in water and secondarily splashed on the surface of a ceramic mold;
according to the intelligent disinfection device for rubber glove production, the use method of the intelligent disinfection device for rubber glove production is also provided, and the intelligent disinfection device comprises the following steps:
s1: mounting a ceramic die on the ceramic hand die mounting seat 201, wherein the ceramic die moves from left to right along with the sliding belt 2;
s2: the moving ceramic mould sequentially passes through a cleaning chamber 3 and a bleaching chamber 4 which are provided with soapy water and bleaching agent, then enters a decontamination chamber 5 for cleaning, and finally is immersed into a high-temperature disinfection chamber 6 which is provided with hot water for cleaning and high-temperature disinfection;
s3: the moving ceramic mould enters a decontamination chamber 5 and is cleaned by a first brushing mechanism and a second brushing mechanism;
s4: the secondary flushing mechanism inside the decontamination chamber 5 flushes residues on the surface of the ceramic mold and residual stains in the bristles of the second decontamination brush disc 901 during the cleaning process.
The working principle of the invention is as follows: the ceramic mould for producing rubber gloves is arranged on a conveying mechanism, moves from left to right along with the conveying mechanism, sequentially passes through a cleaning chamber 3 and a bleaching chamber 4 which are provided with soapy water and bleaching agent, enters a decontamination chamber 5 for cleaning, and finally is immersed into a high-temperature disinfection chamber 6 which is provided with hot water for cleaning and high-temperature disinfection;
when the ceramic hand die mounting seat 201 provided with the ceramic die moves from left to right along the sliding belt 2, meanwhile, the roller 205 on the surface of the ceramic hand die mounting seat 201 rolls along the guide sliding rail 203 to drive the ceramic hand die mounting seat 201 and the rotating seat 206 to rotate in the moving process, the guide sliding rail 203 faces upwards at the positions close to the upper parts of the left inner wall and the right inner wall of the disinfection box body 1 and the partition plate 101, the guide sliding rail 203 faces to one side far away from the sliding belt 2 at the positions close to the upper parts of the cleaning chamber 3, the bleaching chamber 4, the decontamination chamber 5 and the high-temperature disinfection chamber 6, and the direction of the roller 205 changes along the guide sliding rail 203 in the rolling process of the roller 205, when the ceramic hand die mounting seat 201 provided with the ceramic die is positioned at the positions above the left inner wall and the right inner wall of the disinfection box body 1 and the partition plate 101, the ceramic die is horizontally placed, and when the ceramic hand die mounting seat 201 provided with the ceramic die moves to the upper parts of the cleaning chamber 3, the bleaching chamber 4, the decontamination chamber 5 and the high-temperature disinfection chamber 6, and the ceramic die extends downwards into the cleaning chamber 3, the bleaching chamber 4 and the interior of the decontamination chamber 5 and the high-temperature disinfection chamber 6;
When the ceramic hand mold mounting seat 201 provided with the ceramic mold moves into the decontamination chamber 5, the first connecting shaft 702 is driven by the first driving motor 7 to keep rotating, the lower end of the first connecting shaft 702 is immersed in the water surface in the decontamination chamber 5, the ceramic mold rotates in the moving process and passes through between two groups of disc cleaning brushes, the disc cleaning brushes scrape off pollutants on the surface of the ceramic mold, the scraped part falls into water, and the pollutants stained on the disc cleaning brushes also fall into water when immersed in the water;
when the driven wheel 805 rotates, the connecting shaft 905 is driven to synchronously rotate, the rotating rod 904 on the lower surface of the connecting shaft 905 is driven to circumferentially rotate, when the rotating rod 904 rotates to one end far away from the installation connecting seat 9, the outer connecting sleeve 903 is driven to move to one side far away from the installation connecting seat 9, when the rotating rod 904 rotates to the left side, the outer connecting sleeve 903 moves to one end close to the installation connecting seat 9 for a distance and deflects, and when the rotating rod 904 moves to one side close to the installation connecting seat 9, the outer connecting sleeve 903 also synchronously moves to the installation connecting seat 9;
the outer connecting sleeve 903 is driven to turn over during the back and forth reciprocating movement through the rotation of the rotating rod 904, so that a second decontamination brush plate 901 fixedly connected with the outer connecting sleeve 903 also moves in the same track, after the ceramic mold is cleaned by the first brushing mechanism, the surface of the ceramic mold is decontaminated for the second time through the second decontamination brush plate 901 attached to the ceramic mold in the front-back direction, the second decontamination brush plate 901 is driven by a third driving motor to continuously rotate, and the second decontamination brush plate 901 performs the reciprocating movement and slightly deflects while keeping the rotation, simulates the wiping action, and cleans dead angle parts which are possibly not cleaned by scraping for the first time;
When the horizontal linkage rod 902 drives the connecting piston 1004 to reciprocate, water flow below the outer cavity 1007 is pushed to the upper part of the outer cavity 1007, when the water flow inside the decontamination chamber 5 is sucked into the outer cavity 1007 through the water inlet 1001 and then sprayed out through the lower brush disc cleaning spray heads 1003, the water flow sprayed out from the lower brush disc cleaning spray heads 1003 at two sides respectively faces the lower ends of the first decontamination brush disc 701 and the second decontamination brush disc 901, when the first decontamination brush disc 701 and the second decontamination brush disc 901 which are stained with stains after decontamination are immersed in water, the water flow sprayed out through the lower brush disc cleaning spray heads 1003 washes, so that the residues of the stains on the surfaces of the first decontamination brush disc 701 and the second decontamination brush disc 901 are reduced, the service lives of the first decontamination brush disc 701 and the second decontamination brush disc 901 are prolonged, and pollutants between the first decontamination brush disc 701 and the second decontamination brush disc 901 are well reduced, and certain pollutants still attached to the surface of a ceramic brush hair are avoided when the ceramic die passes through;
when the ceramic mold is decontaminated, the soapy water and the bleaching agent still have a small amount of residues on the surface of the ceramic mold, the dirt removal process can only remove dirt, the auxiliary liquid cleaning effect is limited, the residual soapy water and the bleaching agent can only be treated when the residual soapy water and the bleaching agent are soaked in hot water in the high-temperature disinfection chamber 6, but due to the large production capacity, a large amount of soapy water and bleaching agent can be remained in the high-temperature disinfection chamber 6 after the ceramic mold is soaked, and then the hot water needs to be replaced frequently, otherwise, the soapy water and the bleaching agent can remain on the surface of the ceramic mold, and the product quality can be affected when the rubber is smeared.
The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, but rather, the foregoing embodiments and description illustrate the principles of the invention, and that various changes and modifications may be effected therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.