Background
In chemical teaching, experiments are an essential link, an old-fashioned test bed is very inconvenient to move and cannot be suitable for all people in height, waste gas generated in the experiments is naturally discharged indoors, some gas is pungent and can cause harm to bodies, and cleaning in the experiments is very inconvenient, so that the multifunctional test bed is invented.
Disclosure of Invention
The multifunctional test bed mainly solves the technical problem that waste gas can be effectively treated, the height of the multifunctional test bed is adjusted to be suitable for all people, waste liquid is effectively treated, and the multifunctional test bed is convenient to move.
In order to solve the technical problem, the invention relates to a teaching aid, in particular to a multifunctional experiment table, which comprises a waste gas treatment device, a waste water treatment device, a water supply device, a lifting device and a moving device, and is characterized in that: the waste gas treatment device comprises a waste gas treatment box, a waste gas baffle plate, a waste gas box bracket, a fan protective screen, a fan blade fixing wheel, a fan connecting rod, a fan blade, a fan supporting rod, a fan control rod fixing plate supporting rod and a base, wherein the waste gas treatment box is fixedly connected with the waste gas baffle plate, the waste gas baffle plate is positioned in the waste gas treatment box, the waste gas box bracket is fixedly connected with the waste gas treatment box, the waste gas box bracket is positioned at the right end of the waste gas treatment box, the other end of the waste gas box bracket is fixedly connected with the experiment table body, a connecting point is positioned at the left end of the experiment table body, the fan protective screen is fixedly connected with the fan supporting rod, the fan protective screen is positioned at the left side of the fan supporting rod, the fan blade fixing wheel is matched with the fan connecting rod in a clearance fit mode, the fan blade is positioned at the left end of the blade fixing wheel, the fan blade is matched with the fan connecting rod in a clearance fit mode, the connecting point is positioned at the central position of the fan blade, the fan connecting rod is fixedly connected with the fan supporting rod, the fan connecting rod is positioned at the upper end of the fan supporting rod, the fan supporting rod is fixedly connected with the base, the fan supporting rod is positioned above the base, the fan control rod is fixedly connected with the fan control rod fixing plate, the fan control rod is positioned at the right end of the fan control rod fixing plate, the connecting point is positioned at the edge position of the fan control rod fixing plate, the fan control rod fixing plate is hinged with the fan control rod fixing plate supporting rod, the fan control rod fixing plate is positioned above the fan control rod fixing plate supporting rod, the connecting point is positioned at the circle center position of the fan control rod fixing plate, the fan control, the base is fixedly connected with the experiment table body and is positioned above the experiment table body;
the wastewater treatment device comprises a wastewater tank, cotton cloth, activated carbon, filter paper, a wire netting, a one-way throttle valve and a water injection valve, wherein the wastewater tank is fixedly connected with a bench body of the experiment bench, the wastewater tank is positioned in the bench body of the experiment bench, the cotton cloth is contacted with the wastewater tank and positioned in the wastewater tank, the cotton cloth is contacted with the activated carbon, the cotton cloth is positioned above the activated carbon, the activated carbon is contacted with the wastewater tank, the activated carbon is positioned in the wastewater tank, the activated carbon is contacted with the filter paper, the filter paper is contacted with the wastewater tank, the filter paper is positioned in the wastewater tank, the filter paper is contacted with the wire netting, the filter paper is positioned above the wire netting, the wire netting is fixedly connected with the wastewater tank, the wire netting is positioned in the wastewater tank, the one-way throttle valve is fixedly connected with the wastewater tank, the one-way throttle valve is positioned at the bottom of the wastewater tank, the wastewater tank is fixedly connected, the one-way throttle valve is contacted with the water supply device, the one-way throttle valve is positioned at the left of the water supply device, the water injection valve is fixedly connected with the waste water tank and positioned at the bottom of the waste water tank,
the water supply device comprises a first control rod, a first control rod fixing plate, a first connecting rod, a first fixing block, a first bevel gear, a second bevel gear, a first screw rod, a second fixing block, a rubber pad, a first rubber pad fixing plate and a water tank, wherein the first control rod is fixedly connected with the first control rod fixing plate, the first control rod is positioned at the left end of the first control rod fixing plate, a connecting point is positioned at one edge of the first control rod fixing plate, the first control rod fixing plate is fixedly connected with the first connecting rod, the first control rod fixing plate is concentric with the first connecting rod, the first connecting rod is matched with the experiment table body in a clearance fit mode, the first connecting rod is matched with the inner surface of the first fixing block in a clearance fit mode, the first fixing block is fixedly connected with the experiment table body, the first connecting rod is fixedly connected with the first bevel gear, the first connecting rod is positioned at the left side of the bevel, the first helical gear is meshed with the second helical gear, the first helical gear is positioned above the second helical gear, the second helical gear is in threaded connection with the first screw, the second helical gear is concentric with the first screw, the first screw is matched with the second fixed block in a clearance fit mode, the second fixed block is fixedly connected with the experiment table body, the rubber pad is in threaded connection with the first screw and is connected to the center of the rubber pad, the rubber pad is matched with the inner surface of the water tank in an interference fit mode, the rubber pad is connected with a rubber pad fixing plate, the rubber pad is positioned above the rubber pad fixing plate, the rubber pad is concentric with the rubber pad fixing plate, the rubber pad fixing plate is in threaded connection with the first screw, the connection point is positioned at the center of the rubber pad fixing plate, the water tank is fixedly connected with the experiment table body, and the water tank is positioned inside the experiment table body;
the lifting device comprises a control rod II, a control rod fixing plate II, a main screw, a main helical gear I, a main helical gear II, a limiting block I, a connecting rod II, an auxiliary helical gear I, an auxiliary helical gear II, an auxiliary screw, a connecting rod supporting plate, a base and a limiting block II; the second control rod is fixedly connected with the second control rod fixing plate, the second control rod is positioned above the second control rod fixing plate, the connecting point is positioned at the edge of the second control rod fixing plate, the second control rod fixing plate is fixedly connected with the main screw rod, the second control rod fixing plate is positioned above the main screw rod, the second control rod fixing plate is concentric with the main screw rod, the main screw rod is in threaded connection with the first main helical gear, the main screw rod is concentric with the first main helical gear, the first main helical gear is fixedly connected with the second limit block, the first main helical gear is positioned below the second limit block, the first main helical gear is meshed with the second main helical gear, the first main helical gear is positioned above the second main helical gear, the second main helical gear is fixedly connected with the first limit block, the second main helical gear is positioned at the left side of the first limit block, the second main helical gear is fixedly connected with the second connecting, and the first limiting block is concentric with the second connecting rod, the second auxiliary helical gear is fixedly connected with the second connecting rod, the first auxiliary helical gear is meshed with the second auxiliary helical gear, the first auxiliary helical gear is positioned above the second auxiliary helical gear, the first auxiliary helical gear is fixedly connected with the second limiting block, the first auxiliary helical gear is positioned below the second limiting block, the first auxiliary helical gear is in threaded connection with the auxiliary screw rod, the first auxiliary helical gear is concentric with the auxiliary screw rod, the connecting rod supporting plate is matched with the second connecting rod in a clearance fit mode, the connecting rod supporting plate is fixedly connected with the base, the two connecting rod supporting plates are symmetrically arranged above the base, the second limiting block is fixedly connected with the experiment table body, the second limiting block is positioned below the experiment table body, the main screw rod and the auxiliary screw rod are in contact with the experiment table body, and the main screw rod and the auxiliary.
The moving device comprises a third control rod, a third control rod fixing plate, a first belt wheel, a belt, a second belt wheel, a wheel support, a fixed rod and a fixed rod supporting rod, wherein the third control rod is fixedly connected with the third control rod fixing plate, the third control rod is positioned at the edge position of the third control rod fixing plate, the third control rod fixing plate is fixedly connected with the first belt wheel, the third control rod fixing plate is positioned in front of the first belt wheel, the third control rod fixing plate is concentric with the first belt wheel, the first belt wheel is contacted with the belt, the belt is contacted with the second belt wheel, the first belt wheel is positioned above the second belt wheel, the second belt wheel is fixedly connected with the wheel, the second belt wheel is concentric with the wheel, the wheel is hinged with the wheel support, a connecting point is positioned at the center of the wheel, the wheel support is fixedly connected with the lifting device, the wheel, the fixed rod is positioned above the fixed rod supporting rod, the fixed rod is fixedly connected with the experiment table body, the fixed rod is positioned at the right side of the experiment table body, the fixed rod supporting rod is fixedly connected with the experiment table body, and the fixed rod supporting rod is positioned at the right side;
the experiment table body comprises a table body, a water tank supporting rod, a water feeding pipe and a water discharging pipe, wherein the table body is hinged with the water tank, the table body is positioned on the left side of the water tank, the water tank is hinged with the water tank supporting rod, the water tank is positioned on the right side of the water tank supporting rod, the water tank supporting rod is contacted with the table body, the water tank supporting rod is positioned on the right side of the table body, the water feeding pipe is contacted with the water tank, the other end of the water feeding pipe is connected with a water supply device;
waste gas treatment device and laboratory bench body coupling, and waste gas treatment device is located the laboratory bench body top, waste water treatment device is connected with water supply installation, and waste water treatment device is located the water supply installation top, elevating gear is connected with the mobile device, and elevating gear is located the mobile device top, the laboratory bench body is connected with waste water treatment device, and waste water treatment device is located the laboratory bench internal portion, waste water treatment device and laboratory bench body coupling, and waste water treatment device is located the laboratory bench internal portion, elevating gear and laboratory bench body coupling, and elevating gear is located laboratory bench body below, mobile device and laboratory bench body coupling.
As a further optimization of the technical scheme, the first bevel gear, the second bevel gear, the first main bevel gear, the second main bevel gear, the first auxiliary bevel gear and the second auxiliary bevel gear are all made of chrome silicon.
As a further optimization of the technical scheme, the wheels of the multifunctional experiment table are made of ABS plastic.
As a further optimization of the technical scheme, the first screw, the main screw and the auxiliary screw of the multifunctional experiment table are all made of steel.
As a further optimization of the technical scheme, the water tank, the waste water tank and the water tank of the multifunctional experiment table are all made of stainless steel.
As a further optimization of the technical scheme, the belt wheel I and the belt wheel II of the multifunctional experiment table are made of titanium alloy materials.
The multifunctional experiment table has the beneficial effects that:
according to the multifunctional experiment table, waste gas can be effectively treated, the height of the multifunctional experiment table is adjusted to be suitable for all people, waste liquid is effectively treated, and the multifunctional experiment table is convenient to move.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, and the invention relates to a teaching aid, in particular to a multifunctional experiment table, which comprises a waste gas treatment device 1, a waste water treatment device 2, a water supply device 3, a lifting device 4, a moving device 5, and an experiment table body 6.
The waste gas treatment device 1 comprises a waste gas treatment box 1-1, a waste gas baffle plate 1-2, a waste gas box support 1-3, a fan protective net 1-4, a fan sheet fixing wheel 1-5, a fan connecting rod 1-6, a fan sheet 1-7, a fan supporting rod 1-8, a fan control rod 1-9, a fan control rod fixing plate 1-10, a fan control rod fixing plate supporting rod 1-11 and a base 1-12, wherein the waste gas treatment box 1-1 is fixedly connected with the waste gas baffle plate 1-2, the waste gas baffle plate 1-2 is positioned in the waste gas treatment box 1-1, the waste gas baffle plate 1-2 controls the flow direction of waste gas, dry ice is arranged in the waste gas treatment box 1-1, the waste gas box support 1-3 is fixedly connected with the waste gas treatment box 1-1, and the waste gas box support 1-3 is positioned at the right end of the waste gas, the waste gas box support 1-3 plays a role of supporting the waste gas treatment box 1-1, the other end of the waste gas box support 1-3 is fixedly connected with the experiment table body 6, the connection point is positioned at the left end of the experiment table body 6, the fan protective net 1-4 is fixedly connected with the fan support rod 1-8, the fan protective net 1-4 is positioned at the left side of the fan support rod 1-8, the fan sheet fixing wheel 1-5 is matched with the fan connecting rod 1-6 in a clearance fit mode, the fan sheet fixing wheel 1-5 is concentric with the fan connecting rod 1-6, the fan sheets 1-7 are fixedly connected with the fan sheet fixing wheel 1-5, the fan sheets 1-7 are positioned at the left end of the fan sheet fixing wheel 1-5, the fan sheet fixing wheel 1-5 plays a role of transferring motion, and the fan sheets 1-7 are matched with the fan connecting rod 1-6, the matching mode is clearance fit, the connection point is positioned at the central position of the fan sheet, the fan connecting rod 1-6 is fixedly connected with the fan supporting rod 1-8, the fan connecting rod 1-6 is positioned at the upper end of the fan supporting rod 1-8, the fan supporting rod 1-8 is fixedly connected with the base 1-12, the fan supporting rod 1-8 plays a role of supporting the fan, the fan supporting rod 1-8 is positioned above the base 1-12, the fan control rod 1-9 is fixedly connected with the fan control rod fixing plate 1-10, the fan control rod 1-9 is positioned at the right end of the fan control rod fixing plate 1-10, the connection point is positioned at the edge position of the fan control rod fixing plate 1-10, the fan control rod fixing plate 1-10 is hinged with the fan control rod fixing plate supporting rod 1-11, and the fan control rod fixing plate 1-10 is positioned above the fan control, the connecting point is positioned at the circle center position of the fan control rod fixing plate 1-10, the fan control rod fixing plate supporting rods 1-11 are fixedly connected with the bases 1-12, the fan control rod fixing plate supporting rods 1-11 are positioned above the bases 1-12, the bases 1-12 are fixedly connected with the experiment table body 6, and the bases 1-12 are positioned above the experiment table body 6;
the wastewater treatment device 2 comprises a wastewater tank 2-1, cotton cloth 2-2, activated carbon 2-3, filter paper 2-4, a wire netting 2-5, a one-way throttle valve 2-6 and a water injection valve 2-7, wherein the wastewater tank 2-1 is fixedly connected with a bench body 6, the wastewater tank 2-1 is positioned inside the bench body 6, the cotton cloth 2-2 is contacted with the wastewater tank 2-1, the cotton cloth 2-2 is positioned inside the wastewater tank 2-1, the cotton cloth 2-2 is contacted with the activated carbon 2-3, the cotton cloth 2-2 is positioned above the activated carbon 2-3, the activated carbon 2-3 is contacted with the wastewater tank 2-1, the activated carbon 2-3 is positioned inside the wastewater tank 2-1, the activated carbon 2-3 is contacted with the filter paper 2-4, and the activated carbon 2-3 is positioned above the filter paper 2-4, the filter paper 2-4 is in contact with the wastewater tank 2-1, the filter paper 2-4 is positioned inside the wastewater tank 2-1, the cotton cloth 2-2, the activated carbon 2-3 and the filter paper 2-4 play a role in filtering and adsorbing, the filter paper 2-4 is in contact with the wire netting 2-5, the filter paper 2-4 is positioned above the wire netting 2-5, the wire netting 2-5 is fixedly connected with the wastewater tank 2-1, the wire netting 2-5 is positioned inside the wastewater tank 2-1, the wire netting 2-5 plays a role in fixing the cotton cloth 2-2, the activated carbon 2-3 and the filter paper 2-4, the one-way throttle valve 2-6 is fixedly connected with the wastewater tank 2-1, the one-way throttle valve 2-6 is positioned at the bottom of the wastewater tank 2-1, and the wastewater tank 2-1 is fixedly connected with the water supply device, the waste water tank 2-1 is positioned at the left of the water supply device 3, the one-way throttle valve 2-6 is contacted with the water supply device 3, the one-way throttle valve 2-6 is positioned at the left of the water supply device 3 to control the water flow direction, the water injection valve 2-7 is fixedly connected with the waste water tank 2-1, and the water injection valve 2-7 is positioned at the bottom of the waste water tank 2-1;
the water supply device 3 comprises a control rod I3-1, a control rod fixing plate I3-2, a connecting rod I3-3, a fixing block I3-4, a bevel gear I3-5, a bevel gear II 3-6, a screw rod I3-7, a fixing block II 3-8, a rubber cushion 3-9, a rubber cushion fixing plate 3-10 and a water tank 3-11, wherein the control rod I3-1 is fixedly connected with the control rod fixing plate I3-2, the control rod I3-1 is positioned at the left end of the control rod fixing plate I3-2, a connecting point is positioned at the edge position of the control rod fixing plate I3-2, the control rod I3-1 plays a role in providing power, the control rod fixing plate I3-2 is fixedly connected with the connecting rod I3-3, and the control rod fixing plate I3-2 is positioned at the left end of the connecting rod I3-, the first control rod fixing plate 3-2 is concentric with the first connecting rod 3-3, the first connecting rod 3-plays a role in motion transmission, the first connecting rod 3-3 is matched with the experiment table body in a clearance fit mode, the first connecting rod 3-3 is matched with the inner surface of the first fixing block 3-4 in a clearance fit mode, the first fixing block 3-4 is fixedly connected with the experiment table body 6, the first connecting rod 3-3 is fixedly connected with the first bevel gear 3-5, the first connecting rod 3-3 plays a role in motion transmission, the first connecting rod 3-3 is positioned at the left side of the first bevel gear 3-5, the first connecting rod 3-3 is concentric with the first bevel gear 3-5, the first bevel gear 3-5 is meshed with the second bevel gear 3-6 to realize a motion direction changing function, the first bevel gear 3-5 is positioned above the second bevel gear 3-6, the second bevel gear 3-6 is in threaded connection with the first screw rod 3-7, the second bevel gear 3-6 is concentric with the first screw rod 3-7, the first screw rod 3-7 is in clearance fit with the second fixed block 3-8, the second fixed block 3-8 is fixedly connected with the experiment table body 6, the rubber cushion 3-9 is in threaded connection with the first screw rod 3-7 and is positioned at the center of the rubber cushion 3-9, the rubber cushion 3-9 is in fit with the inner surface of the water tank 3-11 in an interference fit manner, the rubber cushion 3-9 is connected with the rubber cushion fixing plate 3-10, the rubber cushion 3-9 is positioned above the rubber cushion fixing plate 3-10, the rubber cushion 3-9 is concentric with the rubber cushion fixing plate 3-10, and the rubber cushion fixing plate 3-10 is in threaded connection with the first screw rod 3-7, the connecting point is positioned at the circle center of the rubber mat fixing plate 3-10, the water tank 3-11 is fixedly connected with the experiment table body 6, and the water tank 3-11 is positioned inside the experiment table body 6;
the lifting device 4 comprises a control rod II 4-1, a control rod fixing plate II 4-2, a main screw rod 4-3, a main helical gear I4-4, a main helical gear II 4-5, a limiting block I4-6, a connecting rod II 4-7, an auxiliary helical gear I4-8, an auxiliary helical gear II 4-9, an auxiliary screw rod 4-10, a connecting rod supporting plate 4-11, a base 4-12 and a limiting block II 4-13, wherein the control rod II 4-1 is fixedly connected with the control rod fixing plate II 4-2, the control rod II 4-1 is positioned at the left of the control rod fixing plate II 4-2, a connecting point is positioned at the edge position of the control rod fixing plate II 4-2, the control rod II 4-1 plays a role in providing power, and the control rod fixing plate II 4-2 is fixedly connected with the connecting rod II 4-7, and the second control rod fixing plate 4-2 is positioned at the left of the second connecting rod 4-7, the second control rod fixing plate 4-2 is concentric with the second connecting rod 4-7, the second connecting rod 4-7 plays a role in transferring motion, the first main screw rod 4-3 is in threaded connection with the first main helical gear 4-4, the first main screw rod 4-3 is concentric with the first main helical gear 4-4, the first main helical gear 4-4 is fixedly connected with the second limit block 4-13, the first main helical gear 4-4 is positioned below the second limit block 4-13, the second limit block 4-13 plays a role in fixing the first helical gear 4-4, the first main helical gear 4-4 is meshed with the second main helical gear 4-5 to realize the role in changing the rotating direction, the first main helical gear 4-4 is positioned above the second main helical gear 4-5, and the second main helical gear 4-5 is fixedly connected, the second main helical gear 4-5 is positioned at the left of the first limiting block 4-6, the second main helical gear 4-5 is fixedly connected with the second connecting rod 4-7, the second main helical gear 4-5 is concentric with the second connecting rod 4-7, the first limiting block 4-6 is fixedly connected with the second connecting rod 4-7, the first limiting block 4-6 is concentric with the second connecting rod 4-7, the second auxiliary helical gear 4-9 is fixedly connected with the second connecting rod 4-7, the first auxiliary helical gear 4-8 is meshed with the second auxiliary helical gear 4-9 to change the rotating direction, the first auxiliary helical gear 4-8 is positioned above the second auxiliary helical gear 4-9, the first auxiliary helical gear 4-8 is fixedly connected with the second limiting block 4-13, and the first auxiliary helical gear 4-8 is positioned below the second limiting block 4-13, the first auxiliary helical gear 4-8 is in threaded connection with the second auxiliary screw rod 4-10, the first auxiliary helical gear 4-8 is concentric with the second auxiliary screw rod 4-10, the connecting rod supporting plate 4-11 is matched with the connecting rod supporting plate 4-11 in a clearance fit mode, the connecting rod supporting plate 4-11 is fixedly connected with the base 4-12, the two connecting rod supporting plates 4-11 are symmetrically arranged above the base 4-12, the two limiting blocks 4-13 are fixedly connected with the experiment table body 6, the two limiting blocks 4-13 are located below the experiment table body 6, the main screw rod 4-3 and the auxiliary screw rod 4-10 are in contact with the experiment table body 6, and the main screw rod 4-3 and the auxiliary screw rod 4-10 are located below the experiment table body 6.
The moving device 5 comprises a control rod III 5-1, a control rod fixing plate 5-2, a belt wheel I5-3, a belt 5-4, a belt wheel II 5-5, a wheel 5-6, a wheel bracket 5-7, a fixing rod 5-8 and a fixing rod supporting rod 5-9, wherein the control rod III 5-1 is fixedly connected with the control rod fixing plate 5-2, the control rod III 5-1 is positioned at the edge of the control rod fixing plate 5-2, the control rod III 5-1 plays a role in providing power, the control rod fixing plate 5-2 is fixedly connected with the belt wheel I5-3, the control rod fixing plate 5-2 is positioned in front of the belt wheel I5-3, the control rod fixing plate 5-2 and the belt wheel I5-3 are concentric, and the belt wheel I5-3 is contacted with the belt 5-4, the belt 5-4 is contacted with the belt wheel II 5-5, the belt wheel I5-3 is positioned above the belt wheel II 5-5, the belt 5-4 plays a role in transferring motion, the belt wheel II 5-5 is fixedly connected with the wheel 5-6, the belt wheel II 5-5 is concentric with the wheel 5-6, the wheel 5-6 is hinged with the wheel bracket 5-7, a connection point is positioned at the center of the wheel 5-6, the wheel bracket 5-7 is fixedly connected with the lifting device 4, the wheel bracket 5-7 is positioned below the lifting device 4, the fixed rod 5-8 is hinged with the belt wheel I5-3, the connection point is positioned at the center of the belt wheel I5-3, the fixed rod 5-8 is fixedly connected with the fixed rod supporting rod 5-9, and the fixed rod 5-8 is positioned above the fixed rod supporting rod, the fixed rod 5-8 is fixedly connected with the experiment table body 6, the fixed rod 5-8 is positioned at the right side of the experiment table body 6, the fixed rod support rod 5-9 is fixedly connected with the experiment table body 6, and the fixed rod support rod 5-9 is positioned at the right side;
the experiment table body 6 comprises a table body 6-1, a water tank 6-2, a water tank support rod 6-3, an upper water pipe 6-4 and a lower water pipe 6-5, the table body 6-1 is hinged with the water tank 6-2, the platform body 6-1 is positioned at the left of the water tank 6-2, the water tank 6-2 is hinged with the water tank support rod 6-3, the water tank 6-2 is positioned at the right side of the water tank support rod 6-3, the water tank support rod 6-3 plays a role of supporting the water tank 6-2, the water tank support rod 6-3 is contacted with the platform body 6-1, the water tank support rod 6-3 is positioned at the right side of the table body 6-1, the upper water pipe 6-4 is contacted with the water tank 6-2, the other end of the water tank is connected with a water supply device 3, a sewer pipe 6-5 is contacted with a water tank 6-2, and the other end of the water tank is connected with a wastewater treatment device 2;
waste gas treatment device 1 is connected with laboratory bench body 6, and waste gas treatment device 1 is located 6 tops of laboratory bench body, waste water treatment device 2 is connected with water supply installation 3, and waste water treatment device 2 is located 3 tops of water supply installation, elevating gear 4 is connected with mobile device 5, and elevating gear 4 is located 5 tops of mobile device, laboratory bench body 6 is connected with waste water treatment device 2, and waste water treatment device 2 is located 6 insides of laboratory bench body, waste water treatment device 2 is connected with laboratory bench body 6, and waste water treatment device 2 is located 6 insides of laboratory bench body, elevating gear 4 is connected with laboratory bench body 6, and elevating gear 4 is located 6 belows of laboratory bench body, mobile device 5 is connected with laboratory bench body 6.
The second embodiment is as follows:
the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, and the present embodiment further describes the first embodiment, in which the first helical gear 3-5, the second helical gear 3-6, the first main helical gear 4-4, the second main helical gear 4-5, the first auxiliary helical gear 4-8, and the second auxiliary helical gear 4-9 are all made of 38 chrome silicon.
The third concrete implementation mode:
the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, and the present embodiment further describes the first embodiment, in which the wheels 5 to 6 are made of ABS plastic.
The fourth concrete implementation mode:
the first embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7 and 8, wherein the first screws 3-7, the main screws 4-3 and the auxiliary screws 4-10 are all made of 45 # steel.
The fifth concrete implementation mode:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7 and 8, and the present embodiment will be further described with reference to the present embodiment, in which the water tank 6-2, the waste water tank 2-1 and the water tank 3-11 are made of stainless steel.
The sixth specific implementation mode:
the first embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 8, and the first embodiment is further described, in which the first pulley 5-3 and the second pulley 5-5 are made of a titanium alloy material.
The method comprises the following steps that a fan control rod 1-9 is shaken to enable a fan control rod fixing plate 1-10 to rotate, a fan blade fixing wheel 1-5 is rotated through belt conveying, so that a fan blade 1-7 rotates, waste gas enters an exhaust gas treatment box 1-1 through a fan by utilizing air flow, an exhaust gas partition plate 1-2 is arranged in the exhaust gas treatment box 1-1 to prolong the flowing time of the waste gas in the exhaust gas treatment box 1-1, and the waste gas is deodorized at low temperature in the exhaust gas treatment box 1-1 and discharged into the air;
the wastewater flows into a wastewater tank 2-1 through a sewer pipe 6-5, is filtered through a cotton cloth 2-2, is adsorbed by activated carbon 2-3, is filtered through a filter paper 2-4, flows into a water tank 3-11 through a one-way throttle valve 2-6, rotates a control rod fixing plate one 3-2 by shaking a control rod one 3-1, transmits the rotation to a bevel gear one 3-5 through a connecting rod one 3-3, the rotation direction is changed by meshing the bevel gear one 3-5 with the bevel gear two 3-6, the bevel gear two 3-6 drives a screw rod one 3-7 to rotate, the screw rod one 3-7 drives a rubber pad 3-9 and a rubber pad fixing plate 3-10 to move upwards through threads, and water is pushed into an upper water pipe 6-4;
the second control rod 4-1 is shaken to enable the second control rod fixing plate 4-2 to rotate, the second control rod fixing plate 4-2 rotates to drive the second connecting rod 4-7 to rotate, so that the second main helical gear 4-5 rotates, the second main helical gear 4-5 is meshed with the first main helical gear 4-4, and the first main helical gear 4-4 rotates to enable the main screw rod 4-3 to move upwards through threads, so that the lifting function is realized;
the control rod III 5-1 is shaken to enable the control rod fixing plate 5-2 to rotate, so that the belt wheel I5-3 rotates, the belt wheel I5-3 transmits the rotation to the belt wheel II 5-5 through the belt 5-4, and the belt wheel II 5-5 rotates to drive the wheels 5-6 to rotate, so that the moving function is realized.
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.