Disclosure of Invention
The invention aims to provide a negative pressure disinfection mixing treatment device for a shelter hospital, which can be used for instantly stirring in a pressure circulation mode and producing disinfection mixed liquid with good mixing degree on the premise of not influencing flow efficiency.
In order to solve the technical problems, the invention provides a negative pressure disinfection mixing treatment device for shelter hospitals, which comprises a mixing casing, wherein a plurality of raw material inlet openings are arranged at the upper end of the mixing casing, a liquid outlet box is communicated at the lower end of the mixing casing, a plurality of liquid outlets are arranged on the liquid outlet box, a stirring rotating shaft is rotatably connected in the mixing casing, stirring blades are connected on the stirring rotating shaft, a T-shaped channel with a sliding cavity is arranged in the stirring rotating shaft, a press-out pipe is communicated with the T-shaped channel with the sliding cavity, the press-out pipe is connected on the stirring rotating shaft, a press-out one-way valve is arranged in the press-out pipe, blades are arranged on an eccentric wheel, the eccentric wheel is vertically and symmetrically connected on an output shaft of a double-shaft motor, the double-shaft motor is arranged in a slide-rod seat, the output shaft of the double-shaft motor is rotatably connected with a slide-rod seat, the slide-rod seat is connected with a piston, the slide-rod seat and the piston are both slidably connected with the T-shaped channel with the sliding cavity, a first spring is sleeved on the slide-rod seat, two ends of a telescopic hose are respectively connected with the stirring rotating shaft and a one-way valve is arranged in the mixing casing and communicated with the liquid outlet box.
Further, negative pressure disinfection hybrid processing apparatus for shelter hospital still includes: the lower extreme of stirring pivot is equipped with higher speed side direction and promotes the blade, and the side direction promotes the blade setting in going out the liquid tank with higher speed, can guarantee that liquid flows out with higher speed, improves fluid transportation efficiency.
Further, negative pressure disinfection hybrid processing apparatus for shelter hospital still includes: the device comprises a guide pipe connected to a liquid outlet, the guide pipe is connected and communicated with a storage tank, a rotating shaft is rotatably connected to the storage tank, one end of the rotating shaft is provided with a cam, an inner gear ring is arranged on the cam, the inner gear ring is meshed with a belt shaft gear, the belt shaft gear is rotatably connected to a pressure change box, the belt shaft gear is connected with a first belt pulley, the first belt pulley is in friction connection with a belt, the belt is in friction connection with a second belt pulley, the second belt pulley is connected with a belt shaft wind wheel, the belt shaft wind wheel is rotatably connected to a bellows, the belt shaft gear is rotatably connected with the bellows, one end of the bellows is connected with a disinfection box, the lower end of the disinfection box is provided with a waste liquid pipe, the upper end of the disinfection box is connected with a switching pipe, the switching pipe is connected and communicated with the pressure change box, the pressure change box is connected and communicated with a communicating pipe, the upper end of the communicating pipe is connected and communicated with the storage tank, the fitting seat with a piston rod is slidably connected in the pressure change box, the second spring is sleeved on the fitting seat with a piston rod, an outer joint port is connected and communicated with the disinfection box, an inlet one-way valve is arranged in the communicating pipe, the connecting pipe, the inner piston rod is connected with a one-way valve, and connected with a filter element in an outer joint of the air outlet, and connected with a jet flow outlet in the disinfection box, and connected with the air jet flow outlet.
Furthermore, the cam is also provided with a heat dissipation slot, so that the heat of transmission can be taken away by the flowing of gas.
Further, negative pressure disinfection hybrid processing apparatus for shelter hospital still includes: the impeller is blocked to be equipped with in the pivot, blocks that the impeller is located the holding vessel, can guarantee liquid spun degree of consistency.
Further, negative pressure disinfection hybrid processing apparatus for shelter hospital still includes: reposition of redundant personnel seat, the center of switching pipe is aimed at to the upper portion pointed end of reposition of redundant personnel seat, reposition of redundant personnel seat below symmetry is equipped with second grade reposition of redundant personnel seat, second grade reposition of redundant personnel seat both sides are equipped with first sunken and arch respectively, first sunken relative setting on two second grade reposition of redundant personnel seats, tertiary reposition of redundant personnel seat sets up in second grade reposition of redundant personnel seat side, it is sunken to be equipped with the second on the tertiary reposition of redundant personnel seat, the second is sunken to be corresponding with protruding one-to-one, reposition of redundant personnel seat, second grade reposition of redundant personnel seat and tertiary reposition of redundant personnel seat all link to each other with the disinfect box inner wall, can shunt and prolong the time down that flows to the disinfectant, improve the contact time and the area of liquid and air, the disinfection effect is improved.
Furthermore, the stirring rotating shaft is provided with a matched driving motor.
Furthermore, the rotating shaft is provided with a matched driving motor.
Furthermore, an opening and closing gate is arranged at the liquid outlet channel, so that a staying and stirring mode is realized.
In conclusion, adopt above-mentioned device, can utilize pressure cycle's mode to stir immediately, produce the disinfection mixed liquid that the mixability is better under the prerequisite that does not influence flow efficiency, can guarantee that liquid flows with higher speed, improve fluid transportation efficiency, can discharge the air in the square cabin and carry out the jet disinfection, do benefit to the gas flow and take away the transmission heat, can guarantee liquid spun degree of consistency, can shunt and prolong the time that flows down to the disinfectant, improve the contact time and the area of liquid and air, improve the disinfection effect.
Detailed Description
The invention will be described in detail hereinafter with reference to the drawings and embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.
As shown in the attached drawings, the embodiment of the invention provides a negative pressure disinfection and mixing treatment device for shelter hospitals, which comprises a mixing machine shell 1, wherein the upper end of the mixing machine shell 1 is provided with a plurality of raw material inlet ports 2, the lower end of the mixing machine shell 1 is communicated with a liquid outlet box 3, the liquid outlet box 3 is provided with a plurality of liquid outlet ports 4, a stirring rotating shaft 5 is rotatably connected in the mixing machine shell 1, the stirring rotating shaft 5 is connected with stirring blades 6, wherein a T-shaped channel 16 with a sliding cavity is arranged in the stirring rotating shaft 5, a pressure outlet pipe 7 is communicated with the T-shaped channel 16 with the sliding cavity, the pressure outlet pipe 7 is connected on the stirring rotating shaft 5, a pressure outlet check valve 8 is arranged in the pressure outlet pipe 7, the eccentric wheel 9 is provided with blades 10, the eccentric wheel 9 is vertically and symmetrically connected on an output shaft of a double-shaft motor 11, the double-shaft motor 11 is arranged in a sliding rod seat 14, the output shaft of the double-shaft motor 11 is rotatably connected with the sliding rod seat 14, the sliding rod seat 14 is connected with a piston 15, a slide rod seat 14 with a piston 15 is connected with a T-shaped channel 16 with a slide cavity in a sliding way, a first spring 13 is sleeved on the slide rod seat 14, two ends of a flexible hose 12 are respectively connected with a stirring rotating shaft 5 and the slide rod seat 14 with a slide cavity, the first spring 13 is arranged in the flexible hose 12, a lower push blade tube 17 is communicated with the T-shaped channel 16 with the slide cavity, the lower push blade tube 17 is connected with the stirring rotating shaft 5, a suction one-way valve 18 is arranged in the lower push blade tube 17, a liquid outlet channel 51 is arranged on a mixing machine shell 1 and is communicated with the mixing machine shell 1 and a liquid outlet box 3, a raw material inlet 2 is externally connected with an inlet pipeline of a disinfection raw material before use, then the raw material is injected into the mixing machine shell 1 from the raw material inlet 2, the stirring rotating shaft 5 is provided with a matched motor to operate and drive the stirring rotating shaft 5 to rotate, and simultaneously operate a double-shaft motor 11, the double-shaft motor 11 can drive the eccentric wheel 9 and the blade 10 to synchronously rotate, the stirring rotating shaft 5 can drive the stirring blade 6 to rotate when rotating, the stirring effect is achieved, the eccentric wheel 9 can form centrifugal force when rotating, the sliding rod seat 14 can reciprocate under the cooperation of the centrifugal force and the first spring 13, in the process, the flexible hose 12 can prevent the first spring 13 from being influenced by liquid, the blade 10 can keep reciprocating motion in the horizontal direction while rotating, the stirring range and dimension are enlarged, the stirring effect is enhanced, the sliding rod seat 14 can drive the piston 15 to reciprocate when reciprocating motion is carried out, the piston 15 can change the pressure in the T-shaped channel 16 with the sliding cavity due to reciprocating motion, mixed liquid below the suction one-way valve 18 is continuously sucked into the T-shaped channel 16 with the sliding cavity from the suction one-way valve 18 and then pressurized to be transversely discharged from the extrusion one-way valve 8, the sprayed position just impacts the rotating blade 10, convection can be increased, the extrusion time of the fluid in the area of the blade 10 is prolonged, the liquid can be continuously extruded from the suction one-way valve 18 to the extrusion one-way valve, the mixed liquid can be continuously discharged from the extrusion one-way valve 8, the shell, the mixed liquid can be continuously added, the mixed liquid, and the mixed liquid can be continuously discharged in the shell, and the mixed liquid can be continuously, the mixed liquid can be continuously added in the shell 17, and the mixed liquid can be continuously, and the shell can be continuously, and the mixed liquid can be continuously added on the premise that the mixed liquid can be continuously, and the mixed liquid can be continuously, and the mixed liquid can be continuously added in the shell 17, and the shell can be continuously.
In this embodiment, the negative pressure disinfection and mixing treatment device for shelter hospitals further comprises: the lower extreme of stirring pivot 5 is equipped with higher speed side direction and promotes blade 19, and the side direction promotes blade 19 setting with higher speed is in going out liquid tank 3, and the liquid that gets into in liquid tank 3 from liquid outlet channel 51 owing to promote the blade 19 with higher speed side direction and can form the side direction driving force along with stirring pivot 5 rotates, further accelerates liquid, and liquid is discharged from liquid outlet 4 with higher speed, uses as required.
In this embodiment, the negative pressure disinfection and mixing treatment device for shelter hospitals further comprises: a guide tube 20 connected to the liquid outlet 4, the guide tube 20 is connected and communicated with a storage tank 21, a rotating shaft 38 is rotatably connected to the storage tank 21, a cam 22 is arranged at one end of the rotating shaft 38, an inner gear ring 25 is arranged on the cam 22, the inner gear ring 25 is engaged with a shaft gear 24, the shaft gear 24 is rotatably connected to a pressure change box 34, the shaft gear 24 is connected with a first belt pulley 26, the first belt pulley 26 is in frictional connection with a belt 27, the belt 27 is in frictional connection with a second belt pulley 28, the second belt pulley 28 is connected with a shaft wind wheel 29, the shaft wind wheel 29 is rotatably connected to a wind box 30, the shaft gear 24 is rotatably connected with the wind box 30, one end of the wind box 30 is connected with a disinfection box 32, a waste liquid pipe 31 is arranged at the lower end of the disinfection box 32, an adapter pipe 33 is connected to the upper end of the disinfection box 32, the adapter pipe 33 is connected and communicated with the pressure change box 34, the pressure change box 34 is connected and communicated with a communicating pipe 35, the upper end of the communicating pipe 35 is connected and communicated with the storage tank 21, the matching seat 36 with the piston rod is connected in the pressure change box 34 in a sliding way, the second spring 37 is sleeved on the matching seat 36 with the piston rod, the outer connector 39 is connected and communicated with the disinfection box 32, the inlet one-way valve 40 is arranged in the communicating pipe 35, the inner piston 41 is connected in the pressure change box 34 in a sliding way, the inner piston 41 is connected with the matching seat 36 with the piston rod, the upper end surface of the matching seat 36 with the piston rod is contacted with the cam 22, the outlet one-way valve 42 is arranged in the adapter pipe 33, the filter element 43 is clamped in the outer connector 39, the liquid from the liquid outlet 4 enters the storage tank 21 through the guide pipe 20, the rotating shaft 38 is provided with a matching motor to operate and drive the rotating shaft 38 to rotate, the rotating shaft 38 drives the cam 22 to rotate, the cam 22 drives the matching seat 36 with the second spring 37 to reciprocate up and down, the matching seat 36 with the piston rod can drive the inner piston 41 to reciprocate up and down, the inner piston 41 can cause the pressure change in the pressure change box 34, so that the liquid in the storage tank 21 is continuously sucked into the pressure change box 34 through the one-way valve 40 and then is sprayed out from the discharge one-way valve 42 after being pressurized, the liquid is sprayed out from the adapter pipe 33 to the disinfection box 32 downwards, a disinfection liquid curtain is formed in the disinfection box 32, the outer interface 39 is connected to the wall of the shelter in advance before the device is used, the outer interface 39 is communicated with the interior of the shelter, the cam 22 can drive the belt shaft gear 24 to rotate through the annular gear 25 during rotation, the belt shaft gear 24 can drive the belt shaft wind wheel 29 to rotate through the driving belt of the first belt pulley 26, the belt 27 and the second belt pulley 28, the belt shaft wind wheel 29 rotates to form gas flow from the outer interface 39 to the wind box 30, so that the air in the shelter is guided to the wind box 30 direction, and the disinfection liquid curtain is sterilized when the air in the disinfection liquid curtain is formed in the disinfection box 32, thereby preventing the disease from spreading.
In this embodiment, the cam 22 is further provided with a heat dissipation slot 23, and when the cam 22 rotates, the heat dissipation slot 23 causes air around the cam 22 to flow, so as to take away heat generated by the rotation of the cam 22.
In this embodiment, the negative pressure disinfection hybrid processing device for shelter hospital further comprises: the blocking impeller 44 is arranged on the rotating shaft 38, the blocking impeller 44 is positioned in the storage tank 21, and the blocking impeller 44 can rotate along with the rotating shaft 38, so that when disinfectant needs to be output from the storage tank 21, the disinfectant output by the rotation of the blocking impeller 44 is ensured to be uniformly mixed.
In this embodiment, the negative pressure disinfection hybrid processing device for shelter hospital further comprises: the reposition of redundant personnel seat 45, the top of reposition of redundant personnel seat 45 aims at the center of adapter tube 33, reposition of redundant personnel seat 45 below symmetry is equipped with second grade reposition of redundant personnel seat 46, second grade reposition of redundant personnel seat 46 both sides are equipped with first sunken 47 and arch 48 respectively, first sunken 47 on two second grade reposition of redundant personnel seats 46 sets up relatively, third grade reposition of redundant personnel seat 50 sets up at second grade reposition of redundant personnel seat 46 side, be equipped with second sunken 49 on third grade reposition of redundant personnel seat 50, second sunken 49 and arch 48 one-to-one correspondence, reposition of redundant personnel seat 45, second grade reposition of redundant personnel seat 46 and third grade reposition of redundant personnel seat 50 all link to each other with disinfect box 32 inner wall, the antiseptic solution that flows down from adapter tube 33 can flow to both sides through reposition of redundant personnel seat 45, then flow to second grade reposition of redundant personnel seat 46 on continuing the reposition of redundant personnel, a part flows through first sunken 47, reduce the velocity of flow, another part can flow to the reposition of redundant personnel seat 50 on flowing through arch 48, the liquid that flows through arch 48, the second sunken 49 also can reduce the velocity of flow, gas enters disinfection box 32 after filtering from external port 39, the air can disinfect when the first sunken 47 can disinfect, the disinfection, the contact of antiseptic solution, the sunken area of the sunken concave contact of the sunken second antiseptic solution that can be reduced, the sunken reflective liquid that can make the sunken reflective liquid that can further reduce, thereby the sunken concave reflection of the protruding gas that can make the protruding sunken 49, the protruding gas, thereby it can make the sunken concave reflection of the sunken 49, the sunken concave reflection of the protruding gas, thereby make.
In this embodiment, the stirring rotating shaft 5 is provided with a matched driving motor.
In this embodiment, the shaft 38 is provided with a driving motor.
In this embodiment, the outlet channel 51 is provided with the opening and closing gate, when the disinfectant is not required to be prepared quickly, the outlet channel 51 can be closed by the opening and closing gate, the double-shaft motor 11 can stop running during stirring operation, power consumption can be reduced, and stirring operation can be completed well, so that quick preparation is not required at this time, and circulating flow of liquid is not required.
From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects: can utilize pressure cycle's mode to stir immediately, produce the better disinfection of degree of mixing and mix under the prerequisite that does not influence flow efficiency and mix the liquid, can guarantee that liquid flows with higher speed, improve fluid transportation efficiency, can discharge the air in the square cabin and carry out the jet flow disinfection, do benefit to gas flow and take away the transmission heat, can guarantee liquid spun degree of consistency, can shunt and prolong the time that flows down to the disinfectant, improve the contact time and the area of liquid and air, improve the disinfection effect.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.