CN112591966B

CN112591966B - Intelligent equipment for water treatment of arid region

Info

Publication number: CN112591966B
Application number: CN202110064842.3A
Authority: CN
Inventors: 李鸿
Original assignee: Nanjing Rongzhong Environmental Engineering Research Institute Co ltd
Current assignee: Nanjing Rongzhong Environmental Engineering Research Institute Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2022-07-08
Anticipated expiration: 2041-01-18
Also published as: CN112591966A

Abstract

The invention discloses intelligent equipment for water treatment in an arid region, which comprises an equipment body, wherein an extrusion space with an upward opening is arranged in the equipment body, a pushing space is arranged on the left side of the extrusion space, a meshing space is arranged on the lower side of the pushing space, a pulling space is arranged on the lower side of a detection space, a filtering space is arranged on the lower side of the pulling space, a light sterilization space is arranged on the bottom wall of the filtering space, opening spaces are symmetrically arranged on the lower side of the light sterilization space in a left-right mode, a setting device is arranged in the equipment, sand on a water edge can be laid layer by layer according to different sizes of particles, so that a filtering device is formed, a large amount of filter materials are not required to be carried by people, the weight carried by people is greatly reduced, and the water in water-containing plants can be squeezed out by the squeezing device.

Description

Intelligent equipment for water treatment of arid region

Technical Field

The invention relates to the field of power driving, in particular to intelligent equipment for water treatment in a arid region.

Background

Dehydration can also be manifested by extreme dryness of the skin mucosa, decreased urine volume, and restlessness, in addition to thirst. The intelligent equipment for water treatment in the arid region can solve the problems that mental and nervous system symptoms including delirium, lethargy, coma and the like can occur due to severe dehydration, multiple organs and organs can have function failure, water is scarce in some arid regions, water cannot be drunk disorderly, harmful substances can be contained in the water, and some plants contain water which is not easy to be squeezed out.

Disclosure of Invention

In order to solve the problems, the embodiment designs an intelligent device for water treatment of an arid region, the intelligent device for water treatment of the arid region comprises a machine body, wherein an extrusion space with an upward opening is arranged in the machine body, a pushing space is arranged on the left side of the extrusion space, an engagement space is arranged on the lower side of the pushing space, a pulling space is arranged on the lower side of a detection space, a filtering space is arranged on the lower side of the pulling space, a light sterilization space is arranged on the bottom wall of the filtering space, opening spaces are symmetrically arranged on the lower side of the light sterilization space in a bilateral mode, crossed belt wheel spaces are symmetrically arranged on the lower side of the light sterilization space in the bilateral mode, a setting device capable of setting air filtering devices according to the size of sand grains is arranged in the filtering space, the setting device comprises slide rail spaces which are symmetrically arranged on the rear wall of the filtering space, and fixed slide rails are respectively and fixedly connected in each slide rail space, the two fixed slide rails are connected with a laying box in a sliding manner, the laying box is connected with a pull-back spring between the bottom wall of the slide rail space respectively, sliding spaces are symmetrically arranged in the laying box left and right, small sliding shafts are fixedly connected in each sliding space respectively, a left-right moving slide block is connected on each small sliding shaft in a sliding manner, an active motor is fixedly connected in the left-right moving slide block, a balance spring is connected between each left-right moving slide block and the left-right wall of the sliding space respectively, the front side surface of the active motor is connected with a front motor shaft which is rotationally connected with the front side surface of the left-right moving slide block in a power manner, a transmission main belt wheel is fixedly connected on the front motor shaft, the rear side surface of the active motor is connected with a cam shaft which is rotationally connected with the rear side surface of the left-right moving slide block in a power manner, and a rotating cam is fixedly connected on the cam shaft, a long connecting rod is hinged between the rotating cam and the left and right moving sliding block on the right side, a variable hole sieve plate is fixedly connected to the left and right moving sliding block, a moving half-toothed disc space is arranged in the variable hole sieve plate, a moving half-toothed disc shaft is rotatably connected to the moving half-toothed disc space, a transmission auxiliary pulley and a moving half-toothed disc are fixedly connected to the front side and the rear side of the moving half-toothed disc shaft, a long transmission belt is connected between the transmission auxiliary pulley and the transmission main pulley, a variable hole rack is slidably connected to the moving half-toothed disc space and can be meshed with the moving half-toothed disc, a compression spring is connected between the variable hole rack and the variable hole sieve plate, a rotating motor is fixedly connected to the left wall of the pulling space, a right motor shaft rotatably connected to the left wall of the pulling space is in power connection with the right side face of the rotating motor, and a meshing half gear is fixedly connected to the right motor shaft, the device comprises a pulling space, a pulling belt drum shaft, a pulling belt drum, a driving pinion, a driving belt drum, a driving half gear, a detection device and a sterilizing device, wherein the pulling space is connected between the left wall and the right wall of the pulling space in a rotating mode, the driving belt drum shaft is fixedly connected with the left side and the right side of the pulling belt drum shaft, the driving pinion can be meshed with the driving half gear, a driving belt is connected between the pulling belt drum and the laying box, the driving space is provided with the extruding device for extruding water, the detection space is provided with the detection device for detecting water quality, and the sterilizing space, the opening space and the cross belt wheel space are provided with the sterilizing device for sterilizing by illumination.

Preferably, the extrusion device includes fixed mounting and is in promote the rotation motor of space diapire, rotate motor top surface power be connected with promote the space diapire and rotate the last motor shaft of connecting, fixedly connected with promotes half fluted disc on the last motor shaft, sliding connection has the promotion rack in the promotion space, promote the rack with be connected with the pulling spring between the left wall in promotion space, promote the rack can with promote half fluted disc meshing, promote the rack and extend right and run through the right wall in promotion space gets into in the extrusion space, fixedly connected with pressure slide bar in the extrusion space, sliding connection has the slider that reciprocates on the pressure slide bar, reciprocate the slider with be connected with the shell spring that draws between the extrusion space diapire, sliding connection has the axis of rotation in the slider that reciprocates, the left and right sides fixedly connected with upper stripper plate of axis of rotation, the extrusion plate is connected with to the side of axis of rotation, The bottom surface of the rotating motor is in power connection with a lower motor shaft which is in rotating connection with the top wall of the meshing space, a rotating main bevel gear is fixedly connected onto the lower motor shaft, a rotating shaft is in rotating connection with the right wall of the meshing space, a rotating auxiliary bevel gear and a rotating main belt wheel are fixedly connected to the left side and the right side of the rotating shaft, the rotating auxiliary bevel gear is meshed with the rotating main bevel gear, an elastic belt is connected between the rotating main belt wheel and the rotating auxiliary belt wheel, the left side surface of the rotating motor is in power connection with a left motor shaft which is in rotating connection with the right wall of the extrusion space, a rotating main belt wheel is fixedly connected onto the left motor shaft, a transmission shaft is in rotating connection with the right wall of the extrusion space, a jacking convex disc and a rotating auxiliary belt wheel are fixedly connected onto the left side and the right side of the transmission shaft, the jacking convex disc is abutted against the up-down moving slide block, and a friction belt is connected between the rotating auxiliary belt wheel and the rotating main belt wheel, the extrusion device is characterized in that a perforated plate is fixedly connected in the extrusion space, and a liquid leakage valve is fixedly connected to the bottom wall of the extrusion space.

Preferably, the detection means comprises a detector fixedly mounted in the detection space, which may be in communication with the filtration space or the photo-sterilization space.

Preferably, the sterilizing device comprises a driving motor fixedly installed on the left side of the cross belt wheel space top wall, each cross belt wheel space top wall is respectively and rotatably connected with a power shaft, each power shaft is respectively and fixedly connected with a cross belt wheel and an opening half-toothed disc, a cross belt is connected between the two cross belt wheels, each cross belt wheel space is respectively and slidably connected with an opening rack, each opening rack can be respectively meshed with the opening half-toothed disc, a return spring is respectively connected between each opening rack and one side wall of the cross belt wheel space, each opening rack respectively extends towards one side and penetrates through one side wall of the cross belt wheel space to respectively enter the opening space, an opening plate shaft is respectively and rotatably connected in each opening space, and an opening plate is respectively and fixedly connected to each opening plate shaft, each of the opening plates is fixedly connected with a reflection condenser lens, and the bottom wall of the light sterilization space is fixedly connected with a heating plate.

Preferably, transparent plastics are fixedly connected in the light sterilization space in a bilaterally symmetrical mode, and the two transparent plastics are sufficiently transparent.

The invention has the beneficial effects that: the invention relates to intelligent equipment for water treatment in arid regions, which is provided with a setting device, wherein the setting device can lay sand on a water edge layer by layer according to different sizes of particles so as to form a filtering device, people do not need to carry a large amount of filtering substances, the weight carried by people is greatly reduced, an extruding device can extrude water in water-containing plants, a detecting device can detect whether water is edible, and a sterilizing device can sterilize by utilizing light reflected by the sterilizing device.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is an enlarged schematic view of A in FIG. 1;

fig. 3 is an enlarged schematic view of B in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are defined as follows: the up, down, left, right, and front-back directions described below coincide with the up, down, left, right, and front-back directions in the projection relation of fig. 1 itself.

The invention relates to intelligent equipment for water treatment of an arid region, which comprises an equipment body 21, wherein an extrusion space 22 with an upward opening is arranged in the equipment body 21, a pushing space 25 is arranged at the left side of the extrusion space 22, an engaging space 41 is arranged at the lower side of the pushing space 25, a pulling space 40 is arranged at the lower side of a detection space 36, a filtering space 34 is arranged at the lower side of the pulling space 40, a light sterilizing space 52 is arranged at the bottom wall of the filtering space 34, opening spaces 58 are arranged at the lower side of the light sterilizing space 52 in a bilateral symmetry manner, crossed belt wheel spaces 59 are arranged at the lower side of the light sterilizing space 52 in a bilateral symmetry manner, a setting device capable of setting air filtering equipment according to the size of sand grains is arranged in the filtering space 34, the setting device comprises slide rail spaces 49 which are arranged at the rear wall of the filtering space 34 in a bilateral symmetry manner, and fixed slide rails 50 are respectively and fixedly connected in each slide rail space 49, the two fixed slide rails 50 are connected with laying boxes 65 in a sliding manner, a pull-back spring is connected between each laying box 65 and the bottom wall of the slide rail space 49, slide spaces 66 are symmetrically arranged in the laying boxes 65 in a left-right manner, small slide shafts 67 are fixedly connected in each slide space 66 respectively, a left-right moving slide block 69 is connected on each small slide shaft 67 in a sliding manner respectively, an active motor 68 is fixedly connected in each left-right moving slide block 69, a balance spring is connected between each left-right moving slide block 69 and the left-right wall of each slide space 66 respectively, the front side surface of each source motor 68 is in power connection with a front motor shaft 72 which is rotationally connected with the front side surface of each left-right moving slide block 69, a transmission main belt wheel 71 is fixedly connected on each front motor shaft 72, and the rear side surface of each source motor 68 is in power connection with a cam shaft which is rotationally connected with the rear side surface of each left-right moving slide block 69, a rotating cam 73 is fixedly connected to the cam shaft, a long connecting rod 70 is hinged between the rotating cam 73 and the right and left moving slide blocks 69 on the right side, a variable hole sieve plate 75 is fixedly connected to the left and right moving slide blocks 69 on the left side, a moving half-gear plate space 77 is arranged in the variable hole sieve plate 75, a moving half-gear plate shaft 79 is rotatably connected to the moving half-gear plate space 77, a transmission auxiliary pulley 80 and a moving half-gear plate 78 are fixedly connected to the front and rear sides of the moving half-gear plate shaft 79, a long transmission belt is connected between the transmission auxiliary pulley 80 and the transmission main pulley 71, a variable hole rack 76 is slidably connected to the moving half-gear plate space 77, the variable hole rack 76 can be meshed with the moving half-gear plate 78, a compression spring is connected between the variable hole rack 76 and the variable hole sieve plate 75, and a rotary motor 45 is fixedly connected to the left wall of the pulling space 40, the right side of the rotating motor 45 is power connected with a right motor shaft 46 which is rotatably connected with the left wall of the pulling space 40, a meshing semi-gear 44 is fixedly connected on the right motor shaft 46, a pulling belt drum shaft 42 is rotatably connected between the left wall and the right wall of the pulling space 40, the left side and the right side of the pulling belt drum shaft 42 are fixedly connected with a meshing pinion 43 and a pulling belt drum 39, the meshing pinion 43 can mesh with the meshing half-gear 44, a pulling belt is connected between the pulling belt drum 39 and the laying box 65, an extruding device for extruding water is arranged among the pushing space 25, the engaging space 41 and the extruding space 22, a water quality detection device is arranged in the detection space 36, and a disinfection device for light disinfection is arranged among the light disinfection space 52, the two opening spaces 58 and the two crossed belt wheel spaces 59.

Advantageously, the extrusion device comprises a rotating motor 29 fixedly installed on the bottom wall of the pushing space 25, an upper motor shaft 28 rotatably connected with the bottom wall of the pushing space 25 is dynamically connected to the top surface of the rotating motor 29, a pushing half-toothed disc 27 is fixedly connected to the upper motor shaft 28, a pushing rack 26 is slidably connected to the pushing space 25, a pulling spring is connected between the pushing rack 26 and the left wall of the pushing space 25, the pushing rack 26 can be meshed with the pushing half-toothed disc 27, the pushing rack 26 extends rightward to penetrate through the right wall of the pushing space 25 to enter the extrusion space 22, a pressing slide rod 83 is fixedly connected to the extrusion space 22, an up-down moving slide block 82 is slidably connected to the pressing slide rod 83, and a pulling spring is connected between the up-down moving slide block 82 and the bottom wall of the extrusion space 22, a rotating shaft 24 is slidably connected in the up-and-down moving sliding block 82, an upper extrusion plate 23 and a rotating secondary pulley 81 are fixedly connected to the left and right sides of the rotating shaft 24, a lower motor shaft 30 rotatably connected to the top wall of the meshing space 41 is dynamically connected to the bottom surface of the rotating motor 29, a rotating primary bevel gear 31 is fixedly connected to the lower motor shaft 30, a rotating shaft 33 is rotatably connected to the right wall of the meshing space 41, a rotating secondary bevel gear 32 and a rotating primary pulley 35 are fixedly connected to the left and right sides of the rotating shaft 33, the rotating secondary bevel gear 32 is meshed with the rotating primary bevel gear 31, an elastic belt is connected between the rotating primary pulley 35 and the rotating secondary pulley 81, a left motor shaft 47 rotatably connected to the right wall of the extrusion space 22 is dynamically connected to the left side surface of the rotating motor 45, a rotating primary pulley 48 is fixedly connected to the left motor shaft 47, and a transmission shaft 85 is rotatably connected to the right wall of the extrusion space 22, the left side and the right side of the transmission shaft 85 are fixedly connected with a jacking convex disc 84 and a rotary auxiliary belt wheel 86, the jacking convex disc 84 is abutted against the up-and-down moving slide block 82, a friction belt is connected between the rotary auxiliary belt wheel 86 and the rotary main belt wheel 48, a perforated plate is fixedly connected in the extrusion space 22, and the bottom wall of the extrusion space 22 is fixedly connected with a liquid leakage valve 38.

Advantageously, the detection means comprise a detector 37 fixedly mounted in the detection space 36, the detection space 36 being in communication with the filtering space 34 and also with the light sterilisation space 52.

Advantageously, the sterilization device comprises a driving motor 62 fixedly mounted on the top wall of the crossed pulley space 59 on the left side, a power shaft 61 is respectively and rotatably connected to the top wall of each crossed pulley space 59, a crossed pulley 63 and an opening half-toothed disc 60 are respectively and fixedly connected to each power shaft 61, a crossed belt is connected between the two crossed pulleys 63, an opening rack 64 is respectively and slidably connected to each crossed pulley space 59, each opening rack 64 can be respectively engaged with the opening half-toothed disc 60, a return spring is respectively connected between each opening rack 64 and one side wall of the crossed pulley space 59, each opening rack 64 respectively extends towards one side to penetrate through one side wall of the crossed pulley space 59 to respectively enter the opening space 58, an opening plate shaft 57 is respectively and rotatably connected to each opening space 58, an opening plate 56 is fixedly connected to each opening plate shaft 57, a reflective condenser 53 is fixedly connected to each opening plate 56, and a heating plate 55 is fixedly connected to the bottom wall of the light sterilization space 52.

Advantageously, the transparent plastics 54 are fixedly connected in the light sterilizing space 52 in a left-right symmetrical manner, and the two transparent plastics 54 are sufficiently transparent.

The use steps herein are described in detail below with reference to fig. 1-3:

in the initial state, the two reflection condensers 53 are in the retracted state, the laying box 65 is located on the lower side of the filtering space 34, the upper squeeze plate 23 is in the horizontal state, and the push rack 26 is located on the left side of the squeezing space 22.

When a water source is found in a dry area, water is poured into the detection space 36, so that the detector 37 detects that silt dug up a little water if the water can be drunk is placed on the large-hole sieve plate 74, the source motor 68 is started in a reverse direction, the front motor shaft 72 is rotated, the transmission main belt wheel 71 is rotated, the transmission auxiliary belt wheel 80 is rotated, the movable half-gear disc shaft 79 is rotated, the movable half-gear disc 78 is rotated, the hole changing rack 76 is moved leftwards and rightwards, the size of a hole in the variable-hole sieve plate 75 is changed, the source motor 68 is started in a forward direction, the cam shaft is rotated, the rotating cam 73 is rotated, the left-right moving slide block 69 is moved leftwards and rightwards through the long connecting rod 70, and the large-hole sieve plate 74 and the variable-hole sieve plate 75 are moved leftwards and rightwards, so that sand leaks into the filtering space 34, the rotating motor 45 is reversely started, so that the right motor shaft 46 rotates, so that the meshing half gear 44 is meshed with the meshing pinion gear 43, so that the pulling belt drum shaft 42 rotates, so that the pulling belt drum 39 rotates, so that the laying box 65 is pulled by a belt to move upwards, the size of the holes in the variable hole sieve plate 75 is changed in the process of ascending the laying box 65, so that particles of the sand form a filtering device from small to large, a charcoal block is placed on the top, after completion, water in the detection space 36 is placed into the filtering space 34, so that the water enters the light sterilizing space 52 through filtering, the driving motor 62 is started, so that the power shaft 61 on the left side rotates, so that the cross belt wheel 63 on the left side rotates, so that power is transmitted to the cross belt wheel 63 on the right side through a cross belt, thereby rotating the power shaft 61 on the right side, and thus rotating the two opening half-toothed discs 60, so that the two opening racks 64 move toward the middle, and thus the two opening plates 56 open outward, and thus the two reflection condensers 53 reflect light into the light sterilization space 52, thereby sterilizing the light.

When a plant containing water is found, the plant containing water is placed in the squeezing space 22, the rotation motor 29 is reversely started to rotate the lower motor shaft 30, thereby rotating the rotation primary bevel gear 31, thereby rotating the rotation secondary bevel gear 32, thereby rotating the rotation shaft 33, thereby rotating the rotation primary pulley 35, thereby transmitting power to the rotation secondary pulley 81 through a belt, thereby rotating the rotation shaft 24, thereby leveling the upper squeezing plate 23, the rotation motor 45 is positively started, thereby rotating the left motor shaft 47, thereby rotating the rotation primary pulley 48, thereby transmitting power to the rotation secondary pulley 86 through a belt, thereby rotating the transmission shaft 85, thereby rotating the top moving flange 84, thereby moving the up-and-down moving slider 82 downward, thereby moving the upper squeezing plate 23 downward due to the elastic force of the spring, thereby pressing out the moisture and activating the weep valve 38 to allow the moisture to enter the photo-sterilization space 52 for photo-sterilization.

The beneficial effects of the invention are: the invention relates to intelligent equipment for water treatment in arid regions, which is provided with a setting device, sand on the water edge can be paved layer by layer according to different sizes of particles to form a filtering device, people do not need to carry a large amount of filtering materials, the weight carried by people is greatly reduced, a squeezing device can squeeze out water in water-containing plants, a detection device can detect whether water is edible, and a disinfection device can disinfect by utilizing light reflected by the disinfection device.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. An intelligent equipment for arid area water treatment, includes the organism, its characterized in that: the machine body is internally provided with an extrusion space with an upward opening, the left side of the extrusion space is provided with a pushing space, the lower side of the pushing space is provided with a meshing space, the lower side of the detection space is provided with a pulling space, the lower side of the pulling space is provided with a filtering space, the bottom wall of the filtering space is provided with a light sterilization space, the lower side of the light sterilization space is bilaterally symmetrically provided with an opening space, the lower side of the light sterilization space is bilaterally symmetrically provided with crossed belt wheel spaces, the filtering space is internally provided with a setting device capable of setting air filtering equipment according to the size of sand grains, the setting device comprises slide rail spaces which are bilaterally symmetrically arranged on the rear wall of the filtering space, each slide rail space is respectively and fixedly connected with a fixed slide rail, two fixed slide rails are respectively and slidably connected with a laying box, and a pull-back spring is respectively connected between the laying box and the bottom wall of the slide rail spaces, sliding spaces are symmetrically arranged in the laying box in the left-right direction, small sliding shafts are fixedly connected in each sliding space respectively, each small sliding shaft is connected with a left-right moving sliding block in a sliding mode, an active motor is fixedly connected in the left-right moving sliding block, a balance spring is connected between each left-right moving sliding block and the left wall and the right wall of the sliding space respectively, the front side face of the active motor is in power connection with a front motor shaft which is in rotating connection with the front side face of each left-right moving sliding block, a transmission main belt wheel is fixedly connected on the front motor shaft, the rear side face of the active motor is in power connection with a cam shaft which is in rotating connection with the rear side face of each left-right moving sliding block, a rotating cam is fixedly connected on the cam shaft, a long connecting rod is hinged between the rotating cam and the right-left moving sliding block on the right side, and a variable hole sieve plate is fixedly connected on the left-right moving sliding block, the variable-hole sieve plate is characterized in that a movable half-fluted disc space is arranged in the variable-hole sieve plate, a movable half-fluted disc shaft is rotatably connected in the movable half-fluted disc space, a transmission auxiliary pulley and a movable half-fluted disc are fixedly connected to the front side and the rear side of the movable half-fluted disc shaft, a long transmission belt is connected between the transmission auxiliary pulley and the transmission main pulley, a variable-hole rack is slidably connected in the movable half-fluted disc space and can be meshed with the movable half-fluted disc, a compression spring is connected between the variable-hole rack and the variable-hole sieve plate, a rotating motor is fixedly connected to the left wall of the pulling space, a right motor shaft rotatably connected with the left wall of the pulling space is in power connection with the right side surface of the rotating motor, a meshing half gear is fixedly connected to the right motor shaft, a pulling belt barrel shaft is rotatably connected between the left wall and the right wall of the pulling space, and a meshing auxiliary gear is fixedly connected to the left side and the right side of the pulling belt barrel shaft, A pulling belt drum, the meshing pinion can be meshed with the meshing half gear, a pulling belt is connected between the pulling belt drum and the laying box, an extrusion device for extruding water is arranged among the pushing space, the meshing space and the extrusion space, a detection device for detecting water quality is arranged in the detection space, and a disinfection device for light disinfection is arranged among the light sterilization space, the two opening spaces and the two crossed belt wheel spaces; the extrusion device includes fixed mounting and is in promote the rotation motor of space diapire, rotate motor top surface power be connected with promote the space diapire and rotate the last motor shaft of connecting, fixedly connected with promotes half fluted disc on the last motor shaft, sliding connection has the promotion rack in the promotion space, promote the rack with be connected with the pulling spring between the left wall in promotion space, promote the rack can with promote half fluted disc meshing, it runs through to promote the rack to extend right the right wall in promotion space gets into in the extrusion space, fixedly connected with pressure slide bar in the extrusion space, sliding connection has the slider that reciprocates on the pressure slide bar, reciprocate the slider with be connected with between the extrusion space diapire and draw the bullet spring, sliding connection has the axis of rotation in the slider that reciprocates, extrusion board on the left and right sides fixedly connected with of axis of rotation, The bottom surface of the rotating motor is in power connection with a lower motor shaft which is in rotating connection with the top wall of the meshing space, a rotating main bevel gear is fixedly connected onto the lower motor shaft, a rotating shaft is in rotating connection with the right wall of the meshing space, a rotating auxiliary bevel gear and a rotating main belt wheel are fixedly connected to the left side and the right side of the rotating shaft, the rotating auxiliary bevel gear is meshed with the rotating main bevel gear, an elastic belt is connected between the rotating main belt wheel and the rotating auxiliary belt wheel, the left side surface of the rotating motor is in power connection with a left motor shaft which is in rotating connection with the right wall of the extrusion space, a rotating main belt wheel is fixedly connected onto the left motor shaft, a transmission shaft is in rotating connection with the right wall of the extrusion space, a jacking convex disc and a rotating auxiliary belt wheel are fixedly connected onto the left side and the right side of the transmission shaft, the jacking convex disc is abutted against the up-down moving slide block, and a friction belt is connected between the rotating auxiliary belt wheel and the rotating main belt wheel, a perforated plate is fixedly connected in the extrusion space, and a liquid leakage valve is fixedly connected to the bottom wall of the extrusion space; the detection device comprises a detector fixedly arranged in the detection space, and the detection space can be communicated with the filtering space and the light sterilization space; the sterilizing device comprises a driving motor fixedly arranged on the top wall of the cross belt wheel space on the left side, each top wall of the cross belt wheel space is respectively and rotatably connected with a power shaft, each power shaft is respectively and fixedly connected with a cross belt wheel and an opening half-toothed disc, a cross belt is connected between the two cross belt wheels, an opening rack is respectively and slidably connected in each cross belt wheel space, each opening rack can be respectively meshed with the opening half-toothed disc, a return spring is respectively connected between each opening rack and one side wall of the cross belt wheel space, each opening rack respectively extends towards one side and penetrates through one side wall of the cross belt wheel space to respectively enter the opening space, an opening plate shaft is respectively and rotatably connected in each opening space, and an opening plate is respectively and fixedly connected on each opening plate shaft, a reflection condenser is fixedly connected in each opening plate, and a heating plate is fixedly connected to the bottom wall of the light sterilization space; transparent plastics are fixedly connected in the light sterilization space in a bilateral symmetry mode, and the two transparent plastics are sufficiently transparent.