CN111318320A - Intelligent experimental facilities - Google Patents

Abstract

The invention relates to an experimental device, in particular to an intelligent experimental device which comprises an experimental table mechanism, a safety mechanism and a filtering mechanism, wherein the device can settle dangerous objects such as fire disasters on a platform body into the device, the device can extinguish fire or clean the experimental device, the device can purify air, the device can seamlessly switch filter plates to facilitate cleaning, the experimental table mechanism is connected with the safety mechanism, and the experimental table mechanism is connected with the filtering mechanism.

Description

Intelligent experimental facilities

Technical Field

The invention relates to experimental equipment, in particular to intelligent experimental equipment.

Background

In the experimental operation, the security is very important, and traditional laboratory bench lacks the safety protection function, and the gas that produces in the experiment can not be fine handles, can not seamless, so designed this kind of intelligent experimental facilities.

Disclosure of Invention

The invention mainly solves the technical problem of providing intelligent experimental equipment, wherein the equipment can settle dangerous objects such as fire disasters on a platform body into the equipment, the equipment can extinguish a fire or clean the experimental equipment, the equipment can purify air, and the equipment can seamlessly switch filter plates to facilitate cleaning.

In order to solve the technical problem, the invention relates to an experimental device, and particularly relates to an intelligent experimental device which comprises a laboratory table mechanism, a safety mechanism and a filtering mechanism, wherein dangerous objects such as fire disasters and the like on a platform body can be settled in the experimental device, the experimental device can extinguish fire or clean the experimental device, the experimental device can purify air, and the filter plates can be seamlessly switched for the experimental device, so that the experimental device is convenient to clean.

The experiment table mechanism is connected with the safety mechanism and the filtering mechanism.

As a further optimization of the technical scheme, the experiment table mechanism of the intelligent experiment equipment comprises a machine body mechanism, a lifting table mechanism, a water discharging mechanism, a movable door mechanism, a threaded rod, a belt pulley, a motor belt pulley, a transmission belt pulley, a belt pulley I, a threaded rod I, a belt A and a servo motor, wherein the machine body mechanism is connected with the lifting table mechanism, the machine body mechanism is connected with the water discharging mechanism, the movable door mechanism is connected with the machine body mechanism in a sliding manner, the movable door mechanism is connected with the threaded rod in a threaded manner, the threaded rod is connected with the belt pulley, the belt pulley is connected with the transmission belt pulley in a friction manner, the transmission belt pulley is connected with the threaded rod I, the threaded rod I is connected with the machine body mechanism in a bearing manner, the machine body mechanism is connected with the servo motor, the servo motor belt pulley is connected with the motor, the belt A is connected with the threaded rod I; the machine body mechanism comprises a base, a hinged support, a hydraulic cylinder, a hydraulic rod, a test bed body with supporting legs, a chute, a water inlet, a bearing seat I, a water outlet square pipe, a slide hole I, a single-hole plate, a double-hole plate, a hinged arm with a chute, a hinged connecting seat, a slide hole I, an inner chute and a water drain hole, wherein the base is connected with the hinged support, the hinged support is hinged with the hydraulic cylinder, the hydraulic cylinder is connected with the hydraulic rod, the hydraulic rod is hinged with the hinged connecting seat, the hinged connecting seat is hinged with the hinged arm with the chute, the hinged arm with the chute is hinged with the base, the test bed body with the supporting legs is connected with the base, the chute is arranged on the test bed body with the supporting legs, the water inlet is arranged on the test bed body with the supporting legs, the connection mode of the threaded rod and the test bed body with the supporting legs is, the servo motor is connected with the experiment table body with the supporting legs, the water outlet square pipe is connected with the experiment table body with the supporting legs, the sliding hole I is formed in the water outlet square pipe, the single-hole plate is connected with the base, the double-hole plate is connected with the base, the sliding hole I is formed in the experiment table body with the supporting legs, the inner sliding groove is formed in the experiment table body with the supporting legs, and the water outlet hole is formed in the water outlet square pipe; the lifting platform mechanism comprises a piston, a piston rod, a sliding seat with a threaded hole, a hinged support arm, a cushion block and a platform body, wherein the piston is connected with the piston rod, the piston rod is connected with the sliding hole I in a sliding manner, the piston rod is connected with the platform body, the platform body is connected with the experiment table body with the support legs in a sliding manner, the sliding seat with the threaded hole is hinged with the hinged support arm, the hinged support arm is hinged with the platform body, the cushion block is connected with the platform body, and the sliding seat with the threaded hole is in threaded connection with the threaded; the water discharging mechanism comprises a sliding valve, a sliding rod I, a reset spring and a pressing seat, the sliding valve is connected with the sliding rod I, the sliding rod I is connected with the pressing seat, the reset spring is sleeved on the sliding rod I, the sliding rod I is connected with a sliding hole I in a sliding mode, the reset spring abuts against a water outlet square pipe and the pressing seat, and the water outlet square pipe is connected with the sliding valve in a sliding mode; the movable door mechanism comprises a threaded hole II and a movable door body, the threaded hole II is tapped on the movable door body, the movable door body is connected with the sliding groove in a sliding mode, and the threaded hole II is connected with the threaded rod in a threaded mode.

As a further optimization of the technical scheme, the safety mechanism of the intelligent experimental equipment comprises a water tank, a water injection plug, a slide hole a, a water outlet pipe, a threaded hole III and a water outlet one-way valve, wherein the water tank is connected with a base, the water injection plug is in threaded connection with the threaded hole III, the threaded hole III is tapped on the water tank, the slide hole a is opened on the water tank, the slide hole a is in sliding connection with a piston rod, the water tank is connected with the water outlet pipe, the water outlet pipe is internally provided with the water outlet one-way valve, the water outlet pipe is connected with an experimental table body with supporting legs, the water outlet pipe is communicated with a water inlet.

As a further optimization of the technical scheme, the filtering mechanism of the intelligent experimental equipment comprises a wind wheel motor, a wind wheel motor belt pulley, a transmission belt A, a belt pulley with a shaft, a negative pressure wind wheel, an air box mechanism, a standby filter screen plate, a limiting step rod and a double-plate filtering mechanism, wherein the wind wheel motor is connected with the wind wheel motor belt pulley, the wind wheel motor belt pulley is in friction connection with the transmission belt A, the transmission belt A is in friction connection with the belt pulley with the shaft, the belt pulley with the shaft is connected with the negative pressure wind wheel, the belt pulley with the shaft is connected with the air box mechanism in a bearing manner, the air box mechanism is connected with the wind wheel motor, the standby filter screen plate is connected with the air box mechanism, the standby filter screen plate is connected with the limiting step rod, the limiting step rod is in sliding connection with a single-; the air box mechanism comprises an air box body, three sliding chutes, a bearing seat II, a friction wheel seat and a friction wheel, wherein the air box body is connected with the base, the three sliding chutes are in sliding connection with the standby filter screen plate, the bearing seat II is connected with the air box body, the friction wheel seat is connected with the friction wheel, the friction wheel is connected with the friction wheel seat in a bearing connection mode, and the friction wheel is in friction connection with the standby filter screen plate; the double-plate filtering mechanism comprises double filtering plates, double sliding rods, a spring A, a connecting plate and a sliding bulge, wherein the double filtering plates are in sliding connection with three sliding chutes, the double filtering plates are in friction connection with a friction wheel, the double filtering plates are connected with the double sliding rods, the double sliding rods are in sliding connection with a double-hole plate, the spring A is sleeved on the double sliding rods, the spring A abuts against the double filtering plates and the double-hole plate, the double sliding rods are connected with the connecting plate, the connecting plate is connected with the sliding bulge, and the sliding bulge is in sliding connection with a hinged.

As a further optimization of the technical scheme, the threaded rod and the threaded rod I of the intelligent experimental equipment have the same rotating direction, the threaded rod is symmetrically connected with two movable door bodies, the rotating directions of threaded holes II in the two movable door bodies are opposite, the two movable door bodies move in opposite directions when the threaded rod rotates, and the rotating directions of threaded holes in the two threaded hole sliding seats are opposite.

The intelligent experimental equipment has the beneficial effects that:

according to the intelligent experimental equipment, dangerous objects such as fire disasters on the platform body can be settled into the equipment, the equipment can extinguish fire or clean the experimental equipment, the equipment can purify air, and the equipment can seamlessly switch the filter plates to facilitate cleaning.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an intelligent experimental device according to the present invention.

Fig. 2 is a schematic structural diagram of an intelligent experimental device according to the present invention.

Fig. 3 is a schematic structural diagram of an intelligent experimental device according to the present invention.

Fig. 4 is a first structural schematic diagram of the experiment table mechanism 1 of the intelligent experiment apparatus of the present invention.

Fig. 5 is a schematic structural diagram of the experiment table mechanism 1 of the intelligent experiment apparatus of the present invention.

Fig. 6 is a third schematic structural diagram of the experiment table mechanism 1 of the intelligent experiment apparatus of the present invention.

Fig. 7 is a first structural schematic diagram of a body mechanism 1-1 of an intelligent experimental device of the present invention.

Fig. 8 is a second structural schematic diagram of the body mechanism 1-1 of the intelligent experimental device of the invention.

Fig. 9 is a third schematic structural diagram of the body mechanism 1-1 of the intelligent experimental device of the present invention.

Fig. 10 is a schematic structural diagram of a lifting table mechanism 1-2 of an intelligent experimental device of the present invention.

Fig. 11 is a schematic structural diagram of the water discharging mechanism 1-3 of the intelligent experimental device of the present invention.

Fig. 12 is a schematic structural diagram of a movable door mechanism 1-4 of an intelligent experimental facility according to the present invention.

Fig. 13 is a first schematic structural diagram of the safety mechanism 2 of the intelligent experimental facility of the present invention.

Fig. 14 is a schematic structural diagram of a safety mechanism 2 of an intelligent experimental facility according to the present invention.

Fig. 15 is a first schematic structural diagram of a filtering mechanism 3 of an intelligent experimental apparatus according to the present invention.

Fig. 16 is a schematic structural diagram of a filtering mechanism 3 of an intelligent experimental apparatus according to the present invention.

Fig. 17 is a third schematic structural diagram of the filtering mechanism 3 of the intelligent experimental device of the present invention.

FIG. 18 is a schematic structural diagram of a bellows mechanism 3-6 of an intelligent experimental apparatus according to the present invention.

FIG. 19 is a schematic structural diagram of a double-plate filtering mechanism 3-9 of an intelligent experimental device according to the present invention.

In the figure: a laboratory bench mechanism 1; a body mechanism 1-1; a base 1-1-1; hinged supports 1-1-2; 1-1-3 of a hydraulic cylinder; 1-1-4 of a hydraulic rod; 1-1-5 of an experiment table body with supporting legs; 1-1-6 of a chute; 1-1-7 of a water inlet; bearing seats I1-1-8; 1-1-9 parts of a water outlet square pipe; a slide hole I1-1-10; 1-1-11 parts of a single-hole plate; 1-1-12 parts of a double-hole plate; articulated arms 1-1-13 with sliding chutes; hinged connecting seats 1-1-14; slide holes I1-1-15; 1-1-16 of an inner chute; 1-1-17 of water discharge hole; a lifting platform mechanism 1-2; a piston 1-2-1; a piston rod 1-2-2; 1-2-3 of a sliding seat with a threaded hole; hinged support arms 1-2-4; 1-2-5 of a cushion block; 1-2-6 of a platform body; 1-3 of a water discharging mechanism; a slide valve 1-3-1; a slide bar I1-3-2; 1-3-3 of a return spring; 1-3-4 of a pressing seat; a movable door mechanism 1-4; a threaded hole II 1-4-1; 1-4-2 of the movable door body; 1-5 parts of a threaded rod; 1-6 of belt pulleys; 1-7 of a motor belt pulley; 1-8 parts of a transmission belt; 1-9 of a transmission belt pulley; pulley I1-10; threaded rod I1-11; belt A1-12; 1-13 of servo motor; a safety mechanism 2; 2-1 of a water tank; 2-2 parts of a water injection plug; a slide hole A2-3; 2-4 of a water outlet pipe; a threaded hole III 2-5; 2-6 of a water outlet one-way valve; a filter mechanism 3; 3-1 of a wind wheel motor; a pulley 3-2 of the wind wheel motor; a transmission belt A3-3; belt pulley 3-4 with shaft; 3-5 parts of negative pressure wind wheel; 3-6 of an air box mechanism; 3-6-1 of a bellows body; 3-6-2 of three chutes; bearing seat II 3-6-3; 3-6-4 parts of a friction wheel seat; 3-6-5 parts of a friction wheel; 3-7 parts of a spare filter screen plate; 3-8 parts of a limiting step rod; 3-9 parts of a double-plate filtering mechanism; 3-9-1 parts of double filter plates; 3-9-2 of a double-sliding rod; spring A3-9-3; 3-9-4 of a connecting plate; 3-9-5 of sliding bulge.

Detailed Description

The first embodiment is as follows:

the present invention relates to an experimental facility, and more particularly, to an intelligent experimental facility, which includes a laboratory table mechanism 1, a safety mechanism 2, and a filter mechanism 3, and is capable of depositing a dangerous item such as a fire on a platform body into the facility, extinguishing a fire or cleaning the experimental facility, purifying air, and seamlessly switching filter plates to facilitate cleaning, and is described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19.

The experiment table mechanism 1 is connected with the safety mechanism 2, and the experiment table mechanism 1 is connected with the filtering mechanism 3.

The second 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, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and the embodiment further describes the embodiment, where the laboratory bench mechanism 1 includes a body mechanism 1-1, a lifting table mechanism 1-2, a water discharging mechanism 1-3, a movable door mechanism 1-4, a threaded rod 1-5, a belt pulley 1-6, a motor belt pulley 1-7, a transmission belt 1-8, a transmission belt pulley 1-9, a belt pulley I1-10, a threaded rod I1-11, a belt a1-12, and a servo motor 1-13, the body mechanism 1-1 is connected to the lifting table mechanism 1-2, the body mechanism 1-1 is connected to the water discharging mechanism 1-3, the movable door mechanism 1-4 is connected with the machine body mechanism 1-1 in a sliding mode, the movable door mechanism 1-4 is in threaded connection with a threaded rod 1-5, the threaded rod 1-5 is connected with a belt pulley 1-6, the belt pulley 1-6 is in frictional connection with a transmission belt 1-8, the transmission belt 1-8 is in frictional connection with a transmission belt pulley 1-9, the transmission belt pulley 1-9 is connected with a threaded rod I1-11, the threaded rod I1-11 is connected with the machine body mechanism 1-1 in a bearing mode, the machine body mechanism 1-1 is connected with a servo motor 1-13, the servo motor 1-13 is connected with a motor belt pulley 1-7, the motor belt pulley 1-7 is in frictional connection with a belt A1-12, and the belt A1-12 is connected with a threaded rod I1-; the machine body mechanism 1-1 comprises a base 1-1-1, a hinged support 1-1-2, a hydraulic cylinder 1-1-3, a hydraulic rod 1-1-4, a test table body with supporting legs 1-1-5, a chute 1-1-6, a water inlet 1-1-7, a bearing seat I1-1-8, a water outlet square pipe 1-1-9, a slide hole I1-1-10, a single-hole plate 1-1-11, a double-hole plate 1-1-12, a hinged arm with a chute 1-1-13, a hinged connecting seat 1-1-14, a slide hole I1-1-15, an inner chute 1-1-16 and a water discharge hole 1-1-17, wherein the base 1-1-1-1 is connected with the hinged support 1-1-2, the hinged support 1-1-2 is hinged with a hydraulic cylinder 1-1-3, the hydraulic cylinder 1-1-3 is connected with a hydraulic rod 1-1-4, the hydraulic rod 1-1-4 is hinged with a hinged connecting seat 1-1-14, the hinged connecting seat 1-1-14 is hinged with a hinged arm 1-1-13 with a chute, the hinged arm 1-1-13 with the chute is hinged with a base 1-1-1, the experiment table body 1-1-5 with the supporting leg is connected with the base 1-1-1, the chute 1-1-6 is opened on the experiment table body 1-1-5 with the supporting leg, a water inlet 1-1-7 is opened on the experiment table body 1-1-5 with the supporting leg, a threaded rod 1-5 is connected with the experiment table body 1-1-5 with the supporting leg in a bearing way, the bearing seat I1-1-8 is arranged on the experiment table body with the supporting legs 1-1-5, the connection mode of the bearing seat I1-1-8 and the threaded rod I1-11 is that the bearing is connected, the servo motor 1-13 is connected with the experiment table body with the supporting legs 1-1-5, the water outlet square pipe 1-1-9 is connected with the experiment table body with the supporting legs 1-1-5, the sliding hole I1-1-10 is arranged on the water outlet square pipe 1-1-9, the single orifice plate 1-1-11 is connected with the base 1-1-1, the double orifice plate 1-1-12 is connected with the base 1-1-1, the sliding hole I1-1-15 is arranged on the experiment table body with the supporting legs 1-1-5, the inner chute 1-1-16 is arranged in the experiment table body with the supporting legs 1-1-5, the water discharging holes 1-1-17 are arranged on the water discharging square pipes 1-1-9; the lifting platform mechanism 1-2 comprises a piston 1-2-1, a piston rod 1-2-2, a sliding seat 1-2-3 with a threaded hole, a hinged support arm 1-2-4, a cushion block 1-2-5 and a platform body 1-2-6, wherein the piston 1-2-1 is connected with the piston rod 1-2-2, the piston rod 1-2-2 is connected with a sliding hole I1-1-15 in a sliding manner, the piston rod 1-2-2 is connected with the platform body 1-2-6, the platform body 1-2-6 is connected with an experiment platform body 1-1-5 with support legs in a sliding manner, the sliding seat 1-2-3 with the threaded hole is hinged with the hinged support arm 1-2-4, and the hinged support arm 1-2-4 is hinged with the platform body 1-2-6, the cushion block 1-2-5 is connected with the platform body 1-2-6, the sliding seat 1-2-3 with the threaded hole is in threaded connection with the threaded rod I1-11, the motor belt pulley 1-7 is driven to rotate through the operation of the servo motor 1-13, the motor belt pulley 1-7 is driven to rotate through the belt A1-12, the belt pulley I1-10 is driven to rotate, the belt pulley I1-10 is driven to rotate, the threaded rod I1-11 is driven to rotate, the threaded rod I1-11 is driven to drive the sliding seat 1-2-3 with the threaded hole to move oppositely and far away from each other, the sliding seat 1-2-3 with the threaded hole drives the platform body 1-2-6 to move downwards through the hinged supporting arm 1-2-4, and the threaded rod I1-11 drives the transmission belt pulley 1-9 to rotate at the same time, the transmission belt pulley 1-9 rotates to drive the belt pulley 1-6 to rotate through the transmission belt 1-8, the belt pulley 1-6 rotates to drive the threaded rod 1-5 to rotate, the threaded rod 1-5 rotates to drive the two movable door bodies 1-4-2 to mutually approach through the matching with the threaded hole II1-4-1, so that the platform body 1-2-6 sinks into the experiment table body 1-1-5 with the supporting legs, then the two movable door bodies 1-4-2 approach to seal the experiment article on the platform body 1-2-6 in the experiment table body 1-1-5 with the supporting legs, if a fire occurs, the experiment table can be used for oxygen-deficient fire extinguishment, and can also be used for preparing for subsequent water quality fire extinguishment or cleaning, when the process needs to be reset, only the servo motors 1-13 need to be operated reversely; the water discharging mechanism 1-3 comprises a sliding valve 1-3-1, a sliding rod I1-3-2, a return spring 1-3-3 and a pressing seat 1-3-4, the sliding valve 1-3-1 is connected with the sliding rod I1-3-2, the sliding rod I1-3-2 is connected with the pressing seat 1-3-4, the return spring 1-3-3 is sleeved on the sliding rod I1-3-2, the sliding rod I1-3-2 is in sliding connection with a sliding hole I1-1-10, the return spring 1-3-3 is abutted against a water outlet square pipe 1-1-9 and a pressing seat 1-3-4, and the water outlet square pipe 1-1-9 is in sliding connection with the sliding valve 1-3-1; the movable door mechanism 1-4 comprises a threaded hole II1-4-1 and a movable door body 1-4-2, the threaded hole II1-4-1 is tapped on the movable door body 1-4-2, the movable door body 1-4-2 is in sliding connection with a chute 1-1-6, the threaded hole II1-4-1 is in threaded connection with a threaded rod 1-5, when the platform body 1-2-6 moves downwards, a piston rod 1-2-2 drives a piston 1-2-1 to move downwards, the piston 1-2-1 moves downwards to compress water which is added into a water tank 2-1 from a threaded hole III2-5 in advance, so that the pressurized water can flush a water one-way valve 2-6 to flush the water into the experiment table body 1-1-5 with supporting legs, the experimental article is put out a fire or washed, after the fire or the washing is finished, the pressing seat 1-3-4 is pressed, the pressing seat 1-3-4 can drive the sliding valve 1-3-1 to move, the sliding valve 1-3-1 does not limit the water discharge hole 1-1-17 any more, and then water flows out from the water discharge hole 1-1-17, so that the water discharge is finished.

The third concrete implementation mode:

the embodiment is described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19. this embodiment further describes the embodiment, where the safety mechanism 2 includes a water tank 2-1, a water filling plug 2-2, a slide hole a2-3, a water outlet pipe 2-4, a threaded hole III2-5, and a water outlet one-way valve 2-6, the water tank 2-1 is connected to a base 1-1-1, the water filling plug 2-2 is connected to a threaded hole III2-5, the threaded hole III2-5 is tapped on the water tank 2-1, the slide hole a2-3 is opened on the water tank 2-1, the slide hole a2-3 is connected to a piston rod 1-2-2, the water tank 2-1 is connected to the water outlet pipe 2-, a water outlet one-way valve 2-6 is arranged in the water outlet pipe 2-4, the water outlet pipe 2-4 is connected with a test bed body 1-1-5 with supporting legs, the water outlet pipe 2-4 is communicated with a water inlet 1-1-7, and the piston 1-2-1 is connected with a water tank 2-1 in a sliding manner.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and the embodiment further describes the embodiment, where the filter mechanism 3 includes a wind wheel motor 3-1, a wind wheel motor pulley 3-2, a transmission belt A3-3, a belt shaft pulley 3-4, a negative pressure wind wheel 3-5, a wind box mechanism 3-6, a spare filter screen plate 3-7, a limit ladder bar 3-8, and a double-plate filter mechanism 3-9, the wind wheel motor 3-1 is connected with the wind wheel motor pulley 3-2, the wind wheel motor pulley 3-2 is frictionally connected with the transmission belt A3-3, the transmission belt A3-3 is frictionally connected with the belt shaft pulley 3-4, the belt pulley 3-4 with a shaft is connected with a negative pressure wind wheel 3-5, the belt pulley 3-4 with a shaft is connected with a wind box mechanism 3-6 in a bearing way, the wind box mechanism 3-6 is connected with a wind wheel motor 3-1, a spare filter screen plate 3-7 is connected with the wind box mechanism 3-6, the spare filter screen plate 3-7 is connected with a limit step rod 3-8, the limit step rod 3-8 is connected with a single-hole plate 1-1-11 in a sliding way, a double-plate filter mechanism 3-9 is connected with the wind box mechanism 3-6, the wind wheel motor pulley 3-2 is driven to rotate by the operation of the wind wheel motor 3-1, the wind wheel motor pulley 3-2 rotates to drive the belt pulley 3-4 with a shaft to rotate by a transmission belt A3-3, the belt pulley 3-4 with a shaft rotates to drive the negative pressure wind wheel 3-5 to, under the drive of negative pressure, outside air is sucked from the side of the double filter plate 3-9-1, and is discharged from the side of the transmission belt A3-3 after being filtered by the double filter plate 3-9-1; the air box mechanism 3-6 comprises an air box body 3-6-1, three sliding chutes 3-6-2, a bearing seat II3-6-3, a friction wheel seat 3-6-4 and a friction wheel 3-6-5, the air box body 3-6-1 is connected with a base 1-1-1, the three sliding chutes 3-6-2 are connected with a spare filter screen plate 3-7 in a sliding way, the bearing seat II3-6-3 is connected with the air box body 3-6-1, the friction wheel seat 3-6-4 is connected with the friction wheel 3-6-5, the friction wheel 3-6-5 is connected with the friction wheel seat 3-6-4 in a bearing way, the friction wheel 3-6-5 is in friction connection with the spare filter screen plate 3-7; the double-plate filtering mechanism 3-9 comprises a double-filter plate 3-9-1, a double-sliding rod 3-9-2, a spring A3-9-3, a connecting plate 3-9-4 and a sliding bulge 3-9-5, the double-filter plate 3-9-1 is connected with a three-sliding chute 3-6-2 in a sliding way, the double-filter plate 3-9-1 is connected with a friction wheel 3-6-5 in a friction way, the double-filter plate 3-9-1 is connected with the double-sliding rod 3-9-2, the double-sliding rod 3-9-2 is connected with a double-hole plate 1-1-12 in a sliding way, the spring A3-9-3 is sleeved on the double-sliding rod 3-9-2, the spring A3-9-3 is abutted against the double-filter plate 3-9-1 and the double-hole, the double-sliding rod 3-9-2 is connected with the connecting plate 3-9-4, the connecting plate 3-9-4 is connected with the sliding protrusion 3-9-5, the sliding protrusion 3-9-5 is connected with the articulated arm with the sliding chute 1-1-13 in a sliding way, if the double-filter plate 3-9-1 is blocked and can not finish filtering, hydraulic oil can be injected into the hydraulic cylinder 1-1-3, the hydraulic rod 1-1-4 can pull the articulated connecting seat 1-1-14 under the driving of the hydraulic oil pressure, the articulated connecting seat 1-1-14 can pull the articulated arm with the sliding chute 1-1-13 to swing around the articulated point with the base 1-1-1, so that the articulated arm with the sliding chute 1-1-13 can drive the sliding protrusion 3-9-5 to move, the sliding protrusion 3-9-5 can drive the double filter plate 3-9-1 to slide out of the three sliding grooves 3-6-2, the friction wheel 3-6-5 can be driven to rotate by the double filter plate 3-9-1 in the sliding process, and the spare filter screen plate 3-7 can be driven to slide into the three sliding grooves 3-6-2 by the friction wheel 3-6-5 in the rotating process, so that the spare filter screen plate 3-7 can play a role in filtering, the double filter plate 3-9-1 can be conveniently cleaned, and the filtering function is not delayed.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present embodiment further describes the first embodiment, in which the threaded rod 1-5 and the threaded rod I1-11 have the same rotating direction, two movable door bodies 1-4-2 are symmetrically connected to the threaded rod 1-5, the rotating directions of the threaded holes II1-4-1 on the two movable door bodies 1-4-2 are opposite, when the threaded rod 1-5 rotates, the two movable door bodies 1-4-2 move in opposite directions, and the rotating directions of the threaded holes on the two sliding seats 1-2-3 with threaded holes are opposite.

The working principle of the device is as follows: the equipment can settle dangerous objects such as fire disasters on the platform body into the equipment, the servo motors 1-13 are operated to drive the motor belt pulleys 1-7 to rotate, the motor belt pulleys 1-7 are rotated to drive the belt pulleys I1-10 to rotate through the belts A1-12, the belt pulleys I1-10 are rotated to drive the threaded rods I1-11 to rotate, the threaded rods I1-11 are rotated to drive the threaded hole sliding seats 1-2-3 to move oppositely and far away from each other, the threaded hole sliding seats 1-2-3 are used for driving the platform body 1-2-6 to move downwards through the hinged support arms 1-2-4, the threaded rods I1-11 are used for driving the transmission belt pulleys 1-9 to rotate, and the transmission belt pulleys 1-9 are rotated to drive the belt pulleys 1-6 to rotate through the transmission belts 1-8 The belt pulley 1-6 rotates to drive the threaded rod 1-5 to rotate, the threaded rod 1-5 rotates to drive the two movable door bodies 1-4-2 to approach each other through the matching with the threaded hole II1-4-1, so that the platform body 1-2-6 sinks into the experiment table body with the supporting legs 1-1-5, then the two movable door bodies 1-4-2 approach each other to seal the experiment articles on the platform body 1-2-6 in the experiment table body with the supporting legs 1-1-5, if a fire occurs, the platform body can be subjected to oxygen deficiency fire extinguishment, and can also be prepared for subsequent water quality fire extinguishment or cleaning, and when the process needs to be reset, the servo motors 1-13 only need to be operated reversely; the device can extinguish fire or clean experimental equipment, when the platform body 1-2-6 moves downwards, the piston 1-2-2 can drive the piston 1-2-1 to move downwards, the piston 1-2-1 moves downwards to compress water which is added into the water tank 2-1 from the threaded hole III2-5 in advance, so that the pressurized water can flush the water outlet one-way valve 2-6 to flush the water into the experimental table body 1-1-5 with the supporting legs to extinguish fire or flush experimental articles, after the experiment is finished, the pressing seat 1-3-4 is pressed, the pressing seat 1-3-4 can drive the sliding valve 1-3-1 to move, the sliding valve 1-3-1 does not limit the water outlet 1-1-17 any more, and the water flows out from the water outlet 1-1-17, finishing water drainage; the device can purify air, the wind wheel motor belt pulley 3-2 is driven to rotate by the operation of the wind wheel motor 3-1, the wind wheel motor belt pulley 3-2 rotates to drive the belt shaft belt pulley 3-4 to rotate through the transmission belt A3-3, the belt shaft belt pulley 3-4 rotates to drive the negative pressure wind wheel 3-5 to rotate to form negative pressure, under the drive of the negative pressure, outside air is sucked from the side of the double filter plates 3-9-1, and is discharged from the side of the transmission belt A3-3 after being filtered by the double filter plates 3-9-1; the equipment can seamlessly switch the filter plates for cleaning, when the double filter plates 3-9-1 are blocked and can not finish filtering, hydraulic oil can be injected into the hydraulic cylinders 1-1-3, the hydraulic rods 1-1-4 can pull the hinged connecting seats 1-1-14 under the driving of the hydraulic oil, the hinged connecting seats 1-1-14 can pull the hinged arms 1-1-13 with the sliding chutes to swing around the hinged point with the base 1-1-1, so that the hinged arms 1-1-13 with the sliding chutes can drive the sliding protrusions 3-9-5 to move, the sliding protrusions 3-9-5 can drive the double filter plates 3-9-1 to slide out from the three sliding chutes 3-6-2, and the double filter plates 3-9-1 can drive the friction wheels 3-6-5 to rotate in the sliding process, the friction wheel 3-6-5 rotates to drive the standby filter screen plate 3-7 to slide into the three sliding grooves 3-6-2, so that the standby filter screen plate 3-7 can play a role in filtering, the double filter plates 3-9-1 can be conveniently cleaned, and the filtering function is not delayed.

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.

Claims (5)

1. The utility model provides an intelligent experimental facilities, includes laboratory bench mechanism (1), safety mechanism (2), filtering mechanism (3), its characterized in that: the experiment table mechanism (1) is connected with the safety mechanism (2), and the experiment table mechanism (1) is connected with the filtering mechanism (3).

2. The intelligent experimental facility of claim 1, wherein: the experiment table mechanism (1) comprises a machine body mechanism (1-1), a lifting table mechanism (1-2), a water discharging mechanism (1-3), a movable door mechanism (1-4), a threaded rod (1-5), a belt pulley (1-6), a motor belt pulley (1-7), a transmission belt (1-8), a transmission belt pulley (1-9), a belt pulley I (1-10), a threaded rod I (1-11), a belt A (1-12) and a servo motor (1-13), wherein the machine body mechanism (1-1) is connected with the lifting table mechanism (1-2), the machine body mechanism (1-1) is connected with the water discharging mechanism (1-3), the movable door mechanism (1-4) is connected with the machine body mechanism (1-1) in a sliding manner, the movable door mechanism (1-4) is connected with the threaded rod (1-5) in a threaded manner, the threaded rod (1-5) is connected with the belt pulley (1-6), the belt pulley (1-6) is in friction connection with the transmission belt (1-8), the transmission belt (1-8) is in friction connection with the transmission belt pulley (1-9), the transmission belt pulley (1-9) is connected with the threaded rod I (1-11), the threaded rod I (1-11) is connected with the machine body mechanism (1-1) in a bearing mode, the machine body mechanism (1-1) is connected with the servo motor (1-13), the servo motor (1-13) is connected with the motor belt pulley (1-7), the motor belt pulley (1-7) is in friction connection with the belt A (1-12), and the belt A (1-12) is connected with the threaded rod I (1-11); the machine body mechanism (1-1) comprises a base (1-1-1), a hinged support (1-1-2), a hydraulic cylinder (1-1-3), a hydraulic rod (1-1-4), a laboratory bench body (1-1-5) with supporting legs, a sliding chute (1-1-6), a water inlet (1-1-7), a bearing seat I (1-1-8), a water outlet square pipe (1-1-9), a sliding hole I (1-1-10), a single-hole plate (1-1-11), a double-hole plate (1-1-12), a hinged arm (1-1-13) with a sliding chute, a hinged connecting seat (1-1-14), a sliding hole I (1-1-15), an inner sliding chute (1-1-16), A water drainage hole (1-1-17), a base (1-1-1) is connected with a hinged support (1-1-2), the hinged support (1-1-2) is hinged with a hydraulic cylinder (1-1-3), the hydraulic cylinder (1-1-3) is connected with a hydraulic rod (1-1-4), the hydraulic rod (1-1-4) is hinged with a hinged connecting seat (1-1-14), the hinged connecting seat (1-1-14) is hinged with a hinged arm (1-1-13) with a chute, the hinged arm (1-1-13) with the chute is hinged with the base (1-1-1), a test bench body (1-1-5) with supporting legs is connected with the base (1-1-1), the sliding chute (1-1-6) is arranged on the experiment table body (1-1-5) with the supporting legs, the water inlet (1-1-7) is arranged on the experiment table body (1-1-5) with the supporting legs, the threaded rod (1-5) is connected with the experiment table body (1-1-5) with the supporting legs in a bearing way, the bearing seat I (1-1-8) is arranged on the experiment table body (1-1-5) with the supporting legs, the bearing seat I (1-1-8) is connected with the threaded rod I (1-11) in a bearing way, the servo motor (1-13) is connected with the experiment table body (1-1-5) with the supporting legs, the water outlet square pipe (1-1-9) is connected with the experiment table body (1-1-5) with the supporting legs, the sliding hole I (1-1-10) is arranged on the water outlet square pipe (1-1-9), the single pore plate (1-1-11) is connected with the base (1-1-1), the double pore plate (1-1-12) is connected with the base (1-1-1), the sliding hole I (1-1-15) is arranged on the experiment table body (1-1-5) with the supporting legs, the inner sliding chute (1-1-16) is arranged in the experiment table body (1-1-5) with the supporting legs, and the water outlet hole (1-1-17) is arranged on the water outlet square pipe (1-1-9); the lifting platform mechanism (1-2) comprises a piston (1-2-1), a piston rod (1-2-2), a sliding seat (1-2-3) with a threaded hole, a hinged support arm (1-2-4), a cushion block (1-2-5) and a platform body (1-2-6), wherein the piston (1-2-1) is connected with the piston rod (1-2-2), the piston rod (1-2-2) is connected with the sliding hole I (1-1-15) in a sliding way, the piston rod (1-2-2) is connected with the platform body (1-2-6), the platform body (1-2-6) is connected with the experimental platform body (1-1-5) with the support arm in a sliding way, the sliding seat (1-2-3) with the threaded hole is hinged with the hinged support arm (1-2-4), the hinged support arm (1-2-4) is hinged with the platform body (1-2-6), the cushion block (1-2-5) is connected with the platform body (1-2-6), and the sliding seat (1-2-3) with the threaded hole is in threaded connection with the threaded rod I (1-11); the water discharging mechanism (1-3) comprises a sliding valve (1-3-1), a sliding rod I (1-3-2), a return spring (1-3-3) and a pressing seat (1-3-4), the sliding valve (1-3-1) is connected with the sliding rod I (1-3-2), the sliding rod I (1-3-2) is connected with the pressing seat (1-3-4), the return spring (1-3-3) is sleeved on the sliding rod I (1-3-2), the sliding rod I (1-3-2) is in sliding connection with a sliding hole I (1-1-10), the return spring (1-3-3) abuts against a water outlet square pipe (1-1-9) and the pressing seat (1-3-4), and the water outlet square pipe (1-1-9) is in sliding connection with the sliding valve (1-3-1); the movable door mechanism (1-4) comprises a threaded hole II (1-4-1) and a movable door body (1-4-2), the threaded hole II (1-4-1) is tapped on the movable door body (1-4-2), the movable door body (1-4-2) is in sliding connection with the sliding groove (1-1-6), and the threaded hole II (1-4-1) is in threaded connection with the threaded rod (1-5).

3. The intelligent experimental facility of claim 1, wherein: the safety mechanism (2) comprises a water tank (2-1), a water injection plug (2-2), a slide hole A (2-3), a water outlet pipe (2-4), a threaded hole III (2-5) and a water outlet one-way valve (2-6), the water tank (2-1) is connected with the base (1-1-1), the water injection plug (2-2) is in threaded connection with the threaded hole III (2-5), the threaded hole III (2-5) is tapped on the water tank (2-1), the slide hole A (2-3) is opened on the water tank (2-1), the slide hole A (2-3) is in sliding connection with the piston rod (1-2-2), the water tank (2-1) is connected with the water outlet pipe (2-4), the water outlet one-way valve (2-6) is arranged in the water outlet pipe (2-4), the water outlet pipe (2-4) is connected with the experiment table body (1-1-5) with the supporting legs, the water outlet pipe (2-4) is communicated with the water inlet (1-1-7), and the piston (1-2-1) is connected with the water tank (2-1) in a sliding manner.

4. The intelligent experimental facility of claim 1, wherein: the filtering mechanism (3) comprises a wind wheel motor (3-1), a wind wheel motor belt pulley (3-2), a transmission belt A (3-3), a belt pulley with a shaft (3-4), a negative pressure wind wheel (3-5), an air box mechanism (3-6), a standby filter screen plate (3-7), a limiting step rod (3-8) and a double-plate filtering mechanism (3-9), wherein the wind wheel motor (3-1) is connected with the wind wheel motor belt pulley (3-2), the wind wheel motor belt pulley (3-2) is in friction connection with the transmission belt A (3-3), the transmission belt A (3-3) is in friction connection with the belt pulley with the shaft (3-4), the belt pulley with the shaft (3-4) is connected with the negative pressure wind wheel (3-5), the belt pulley with the shaft (3-4) is in connection with the air box mechanism (3-6) through a bearing, the wind box mechanism (3-6) is connected with the wind wheel motor (3-1), the standby filter screen plate (3-7) is connected with the wind box mechanism (3-6), the standby filter screen plate (3-7) is connected with the limiting step rod (3-8), the limiting step rod (3-8) is connected with the single-hole plate (1-1-11) in a sliding manner, and the double-plate filter mechanism (3-9) is connected with the wind box mechanism (3-6); the air box mechanism (3-6) comprises an air box body (3-6-1), three sliding chutes (3-6-2), a bearing seat II (3-6-3), a friction wheel seat (3-6-4) and a friction wheel (3-6-5), wherein the air box body (3-6-1) is connected with the base (1-1-1), the three sliding chutes (3-6-2) are connected with the standby filter screen plate (3-7) in a sliding manner, the bearing seat II (3-6-3) is connected with the air box body (3-6-1), the friction wheel seat (3-6-4) is connected with the friction wheel (3-6-5), and the friction wheel (3-6-5) is connected with the friction wheel seat (3-6-4) The mode is that the friction wheel (3-6-5) is in friction connection with the spare filter screen plate (3-7); the double-plate filtering mechanism (3-9) comprises a double-filter plate (3-9-1), a double-sliding rod (3-9-2), a spring A (3-9-3), a connecting plate (3-9-4) and a sliding bulge (3-9-5), the double-filter plate (3-9-1) is connected with the three sliding chutes (3-6-2) in a sliding manner, the double-filter plate (3-9-1) is connected with the friction wheel (3-6-5) in a friction manner, the double-filter plate (3-9-1) is connected with the double-sliding rod (3-9-2), the double-sliding rod (3-9-2) is connected with the double-hole plate (1-1-12) in a sliding manner, the spring A (3-9-3) is sleeved on the double-sliding rod (3-9-2), the spring A (3-9-3) is abutted against the double filter plates (3-9-1) and the double pore plates (1-1-12), the double slide rods (3-9-2) are connected with the connecting plates (3-9-4), the connecting plates (3-9-4) are connected with the sliding bulges (3-9-5), and the sliding bulges (3-9-5) are connected with the articulated arms (1-1-13) with the sliding chutes in a sliding way.

5. The intelligent experimental facility of claim 2, wherein: the threaded rod (1-5) and the threaded rod I (1-11) have the same rotating direction, the threaded rod (1-5) is symmetrically connected with two movable door bodies (1-4-2), the rotating directions of threaded holes II (1-4-1) on the two movable door bodies (1-4-2) are opposite, when the threaded rod (1-5) rotates, the two movable door bodies (1-4-2) move in the reverse direction, and the rotating directions of threaded holes on the two threaded hole sliding seats (1-2-3) are opposite.

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