CN115254205B - Intelligent integrated hoisting diversified supply equipment for laboratory - Google Patents

Abstract

The utility model provides an integrated hoist and mount diversified supply equipment of laboratory intelligence, relates to laboratory supply device technical field, including at least one concrete prefabrication frame, telescopic connecting device, integrated hoist and mount frame components and laboratory diversified supply device. The utility model has reasonable structural design, the laboratory diversified supply device can provide the retractable main pipeline which can be put down and retracted, the retraction can be realized without occupying space when the device is not used, and the water supply component is used for providing experimental water for a laboratory table below; the Internet and electricity supply module is used for providing experimental electricity and an Internet interface for the experiment table below; the ventilation assembly is used for extracting waste gas for the experiment table below; the dangerous experiment product supply assembly is used for providing dangerous experiment liquid reagent for an experiment table below; the static processing component is used for providing static monitoring and static elimination for the experiment table below. Thereby realizing the management and control of hydropower, ventilation, dangerous goods and static electricity in an integrated laboratory.

Description

Intelligent integrated hoisting diversified supply equipment for laboratory

Technical Field

The utility model relates to the technical field of laboratory supply devices, in particular to intelligent integrated hoisting diversified laboratory supply equipment.

Background

The laboratory is a place for students, scientific researchers, and the like to perform experiments. Laboratories play a very important role in technological development.

In the existing laboratory, the connecting channels of materials required by experiments such as water, electricity and the like are generally fixedly arranged in a device on the ground, and a circuit and a waterway cannot be moved according to actual conditions, so that great inconvenience is brought to researchers;

ventilation is generally arranged on a wall, waste gas on a laboratory table, even toxic gas, cannot be discharged more accurately and rapidly, and the ventilation performance is poor and the practicability is low.

Laboratories, particularly chemical laboratories, have numerous dangerous objects such as alcohol, sulfuric acid, hydrochloric acid, etc., and such liquids, although strictly managed, have volatile and flammable characteristics, which can affect laboratory safety.

Meanwhile, in a laboratory, particularly in a physical electrical experimental instrument product, the electromagnetic compatibility requirement of the IEC61326-1 specification is satisfied, the specification comprises an electrostatic immunity experiment, and the instrument product is required to satisfy the experimental grade of 4KV of touch discharge and 8KV of air discharge according to IEC 61000-4-2.

However, the protection of static electricity is weak in a common laboratory, especially a laboratory in a school, and even accidents occur sometimes due to instrument damage caused by static electricity if intelligent control is not performed.

The utility model patent with the publication number of CN210685124U discloses an integrated laboratory top hoisting system, which comprises a fixed seat, a lighting device, a hydroelectric device and a universal exhaust device, wherein the fixed seat is connected with the top surface of a laboratory inner wall through a connecting rod; the hydroelectric installation is arranged on the rocker arm, an electric wire pipeline and a water supply pipeline are arranged in the rocker arm, a multifunctional power socket is arranged on the side face of the rocker arm, and a water supply quick-connection nozzle is arranged at the bottom end of the rocker arm; the universal exhaust device is arranged on the side face of the fixing seat and comprises a hollow multi-fold telescopic round tube and a wind collecting cover. The scheme integrates the functions of illumination, water and electricity and exhaust, solves the problems of incomplete functions and inconvenient use of the existing hoisting equipment, and saves the laboratory space.

The laboratory top hoisting system is mainly and simply integrated with a hydropower and ventilation lighting system, is not used for managing dangerous goods, is not used for reasonably monitoring static electricity, and cannot meet the experimental requirements of partial chemical experiments and physical and electrical experiments.

Disclosure of Invention

The utility model provides intelligent integrated hoisting diversified supply equipment for a laboratory, which aims to solve the problems of hydropower, ventilation, dangerous goods management and static electricity management and control of the integrated laboratory. The following technical scheme is adopted:

the intelligent integrated hoisting diversified supply equipment for the laboratory comprises at least one concrete prefabricated frame, a telescopic connecting device, an integrated hoisting frame assembly and a diversified supply device for the laboratory, wherein the concrete prefabricated frame is embedded in a laboratory girder, one end of the telescopic connecting device is connected to the bottom of the concrete prefabricated frame, the top of the integrated hoisting frame assembly is connected with the other end of the telescopic connecting device and moves up and down along with the movable part of the telescopic connecting device, and the diversified supply device for the laboratory comprises at least one recoverable main pipeline, a water supply assembly, an Internet and electricity supply module, a ventilation assembly, a dangerous experiment supply assembly and an electrostatic treatment assembly;

the retractable main pipeline, the water supply assembly, the Internet and electricity supply module, the ventilation assembly, the dangerous experiment product supply assembly and the static electricity treatment assembly are respectively arranged on the integrated hoisting frame assembly;

the retractable main pipeline is used for providing a concentrated penetrating channel for each pipeline and can be put down for retraction;

the water supply assembly is used for providing experimental water for an experiment table below;

the Internet and electricity supply module is used for providing experimental electricity and an Internet interface for an experiment table below;

the ventilation assembly is used for extracting waste gas for the experiment table below;

the dangerous experiment article supply assembly is used for providing dangerous experiment liquid reagents for an experiment table below;

the static electricity treatment component is used for providing static electricity monitoring and static electricity elimination for the experiment table below.

Through the technical scheme, the three concrete prefabricated frames are pre-buried in a laboratory girder, the whole integrated hoisting frame assembly and the laboratory diversified supply device are connected to the bottom of the concrete prefabricated frames through the telescopic connection device, the distance between the whole equipment and a laboratory table top can be adjusted by adjusting the telescopic connection device, the laboratory diversified supply device can provide a retractable main pipeline which can be put down and retracted, retraction can be realized without occupying space when the laboratory multifunctional concrete prefabricated frame is not used, and the water supply assembly is used for providing experimental water for the laboratory table below; the Internet and electricity supply module is used for providing experimental electricity and an Internet interface for the experiment table below; the ventilation assembly is used for extracting waste gas for the experiment table below; the dangerous experiment product supply assembly is used for providing dangerous experiment liquid reagent for an experiment table below; the static processing component is used for providing static monitoring and static elimination for the experiment table below. Thereby realizing the management and control of hydropower, ventilation, dangerous goods and static electricity in an integrated laboratory.

Optionally, telescopic connecting device includes a set of electric telescopic handle, prefabricated frame connecting piece and integrated connecting piece, the one end of prefabricated frame connecting piece is equipped with the type of falling U connector link, and the other end is equipped with the cylinder head and connects the clamp, the square pipe department in concrete prefabricated frame bottom is hung to the type of U connector link, the clamp cartridge is connected on electric telescopic handle's flexible head, integrated connecting piece connects on electric telescopic handle's shell to follow electric telescopic handle shell from top to bottom and reciprocate.

Through above-mentioned technical scheme, the setting of falling U type connector link and cylinder head connector clamp can be convenient reliable realization top and concrete prefabricated frame, and the bottom is connected with integrated connecting piece, and extension and the withdrawal of the pole head of electric telescopic handle, because the pole head is connected with concrete prefabricated frame, integrated connecting piece just so can realize with electric telescopic handle shell from top to bottom and reciprocate.

Optionally, integrated hoist and mount frame components includes back-off ship type casing and skeleton, the upper portion of skeleton and telescopic connecting device's movable part are connected to follow movable part and reciprocate, back-off ship type casing is equipped with detachable at least apron and fixed plate, fixed plate fixed mounting is around the skeleton, the apron passes through the top of bolt detachable installation at the skeleton, and the skeleton region of apron below is equipped with equipment installation storehouse.

Through above-mentioned technical scheme, back-off ship type casing and skeleton build one and provide the platform of installation for concentrated supply equipment, and back-off ship type casing can realize that two recoverable trunk lines are all retrieved after, accomplish to accomodate, and occupation space is little, installs convenient reliably.

Optionally, the recoverable trunk line includes electric putter, connecting rod, concentrated supply pipeline and hose, electric putter's casing fixed mounting is on the skeleton to be located equipment installation storehouse, the middle part of connecting rod is equipped with the pivot, the both ends of pivot are rotatably installed on the skeleton through the bearing, and the one end of connecting rod is connected with electric putter's pole head through the driving medium, concentrated supply pipeline's one end is connected with the other end of connecting rod to follow the swing of connecting rod and reciprocate, the one end of hose communicates with concentrated supply pipeline's tip, and communicates with laboratory water and electricity, net twine, ventilation reservation pipeline through the pipeline.

Through the technical scheme, when the centralized supply pipeline is required to be put down, the rod head of the electric push rod is retracted to drive the connecting rod to rotate, so that the centralized supply pipeline is driven to be put down, when the centralized supply pipeline is required to be retracted, the rod head of the electric push rod is extended to push the connecting rod to rotate, and the centralized supply pipeline is driven to be retracted to the equipment installation bin, so that the space above the experiment table is not occupied.

Optionally, the water supply assembly comprises a water pipe and an electromagnetic water valve, wherein the water pipe is arranged in the centralized supply pipeline and is communicated with the laboratory water reservation pipeline, and the electromagnetic water valve is arranged at the end part of the water pipe.

Through the technical scheme, water is connected, and the electromagnetic water valve is used for controlling the on-off of the water delivery pipe.

Optionally, the internet and electricity supply module includes threading pipe, power transmission line, net twine, a set of socket and net twine socket, the threading pipe sets up in concentrated supply pipeline to reserve pipeline intercommunication with laboratory net twine and electric wire, power transmission line and net twine set up in the threading pipe, and the power transmission line is connected with the commercial power, a set of socket is connected with the power transmission line electricity respectively, and the net twine is connected with the internet, net twine socket and net twine communication connection.

Through the technical scheme, the Internet and electricity supply module realizes the supply of Internet and electricity, and provides a group of sockets and network cable sockets, so that electricity is taken out and a network is connected in an experiment.

Optionally, the ventilation assembly is at least one universal exhaust hood, and an end of the universal exhaust hood is installed at the lower part of the framework and is communicated with the laboratory exhaust system.

Through the technical scheme, the universal air suction cover can be adjusted when needed in the experimental process, and the air exhaust effect at various positions is achieved.

Optionally, the dangerous experiment article supply assembly includes at least one dangerous article supply pipeline and the acid and alkali resistant solenoid valve that corresponds with dangerous article supply pipeline quantity, dangerous article supply pipeline sets up in concentrated supply pipeline to with the laboratory store dangerous article's accumulator intercommunication, acid and alkali resistant solenoid valve installs the tip at dangerous article supply pipeline.

Through above-mentioned technical scheme, dangerous goods supply pipeline can set up two at least, mainly to the sulfuric acid and the hydrochloric acid that the laboratory is commonly used, and these two kinds of strong acids use amount is big, if not manage the accuse, can have very big potential safety hazard, and acid and alkali resistant solenoid valve can realize the valve control to strong acid pipeline.

Optionally, there is centralized control module in addition, centralized control module includes box body, panel, control circuit board based on the singlechip, trick lock and a set of control button, the terminal at centralized supply pipeline is installed to the box body, the panel is installed in one side of box body, a set of socket and net twine socket are installed on the panel respectively, control circuit board based on the singlechip is located the box body to be connected with electric putter, electromagnetism water valve and acid and alkali resistance solenoid valve control electricity respectively, trick lock and a set of control button are installed on the panel respectively, and are connected with control circuit board based on the singlechip electricity respectively.

Through the technical scheme, when a teacher arranges students to perform experiments, the teacher inputs the correct passwords through the coded lock, the singlechip of the control circuit board based on the singlechip receives signals with the correct passwords, and controls the electric push rod, the electromagnetic water valve and the acid and alkali resistant electromagnetic valve to be in an on power supply state, and at the moment, the electric push rod, the electromagnetic water valve and the acid and alkali resistant electromagnetic valve are respectively switched on and off through a group of control buttons, and the execution action of the electric push rod is controlled.

Optionally, the static processing assembly comprises a static tester and a static eliminator, wherein the static tester and the static eliminator are respectively arranged at the bottom of the box body and are respectively and electrically connected with the control circuit board based on the singlechip in a communication way.

Through the technical scheme, when the electrical instrument experiment is carried out, an experimenter should use the static tester to carry out static test on the experiment table and the experimental instrument, the experiment can be started only according with the static requirement, and if the instantaneous static value exceeds 100V, static elimination is carried out on the part through the static eliminator so as to avoid instrument damage or more serious electric shock accidents.

In summary, the present utility model includes at least one of the following beneficial technical effects:

the utility model has reasonable structural design, the laboratory diversified supply device can provide the retractable main pipeline which can be put down and retracted, the retraction can be realized without occupying space when the device is not used, and the water supply component is used for providing experimental water for a laboratory table below; the Internet and electricity supply module is used for providing experimental electricity and an Internet interface for the experiment table below; the ventilation assembly is used for extracting waste gas for the experiment table below; the dangerous experiment product supply assembly is used for providing dangerous experiment liquid reagent for an experiment table below; the static processing component is used for providing static monitoring and static elimination for the experiment table below. Thereby realizing the management and control of hydropower, ventilation, dangerous goods and static electricity in an integrated laboratory.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the area A of FIG. 1 according to the present utility model;

FIG. 3 is a schematic diagram of the retractable main pipe and centralized control module of the present utility model;

FIG. 4 is a schematic view of the bottom view of the present utility model;

FIG. 5 is a schematic diagram of the electrical device connection principle of the present utility model;

reference numerals illustrate: 1. a concrete prefabricated frame; 2. a telescopic connection device; 21. an electric telescopic rod; 22. prefabricating a frame connecting piece; 221. an inverted U-shaped connecting buckle; 222. the cylinder head is connected with a clamp; 23. an integrated connector; 3. an integrated lifting frame assembly; 31. a back-off boat type shell; 311. a cover plate; 312. a fixing plate; 32. a skeleton; 4. a water supply assembly; 41. a water pipe; 42. an electromagnetic water valve; 5. the Internet and electricity supply module; 54. a socket; 55. a network cable jack; 6. a ventilation assembly; 7. dangerous experiment article supply assembly; 71. a hazardous article supply conduit; 72. acid and alkali resistant electromagnetic valve; 8. an electrostatic processing assembly; 81. an electrostatic tester; 82. a static eliminator; 10. a retractable main conduit; 101. an electric push rod; 102. a connecting rod; 1021. a rotating shaft; 103. a centralized supply pipe; 111. a case body; 121. a panel; 122. control circuit board based on singlechip; 123. a coded lock; 124. control buttons.

Detailed Description

The present utility model is described in further detail below with reference to fig. 1-5.

The embodiment of the utility model discloses a solar charging positioning and tracking module and a life buoy with the same.

Referring to fig. 1 to 5, a laboratory intelligent integrated hoisting diversified supply device comprises at least one concrete prefabricated frame 1, a telescopic connecting device 2, an integrated hoisting frame assembly 3 and a laboratory diversified supply device, wherein the concrete prefabricated frame 1 is pre-embedded in a laboratory girder, one end of the telescopic connecting device 2 is connected to the bottom of the concrete prefabricated frame 1, the top of the integrated hoisting frame assembly 3 is connected with the other end of the telescopic connecting device 2 and moves up and down along with a movable part of the telescopic connecting device 2, and the laboratory diversified supply device comprises at least one retractable main pipeline 10, a water supply assembly 4, an internet and electricity supply module 5, a ventilation assembly 6, a dangerous experiment product supply assembly 7 and an electrostatic treatment assembly 8;

the retractable main pipeline 10, the water supply assembly 4, the internet and electricity supply module 5, the ventilation assembly 6, the dangerous experiment product supply assembly 7 and the static electricity treatment assembly 8 are respectively arranged on the integrated hoisting frame assembly 3;

the retractable main pipe 10 is used for providing a concentrated passage for each pipe and can be put down for retraction;

the water supply assembly 4 is used for providing experimental water for an experiment table below;

the Internet and electricity supply module 5 is used for providing experimental electricity and an Internet interface for an experiment table below;

the ventilation assembly 6 is used for extracting waste gas for the experiment table below;

the dangerous experiment product supply assembly 7 is used for providing dangerous experiment liquid reagent for an experiment table below;

the electrostatic processing assembly 8 is used for providing electrostatic monitoring and electrostatic elimination for the experiment table below.

The three concrete prefabricated frames 1 are pre-buried in a laboratory girder, the whole integrated hoisting frame assembly 3 and a laboratory diversified supply device are connected to the bottom of the concrete prefabricated frames 1 through a telescopic connecting device 2, the distance between the whole equipment and a laboratory tabletop can be adjusted by adjusting the telescopic of the telescopic connecting device 2, the laboratory diversified supply device can provide a retractable main pipeline 10 which can be put down and retracted, retraction can be realized without occupying space when the laboratory precast frame is not used, and the water supply assembly 4 is used for providing experimental water for the laboratory tables below; the Internet and electricity supply module 5 is used for providing experimental electricity and an Internet interface for an experiment table below; the ventilation assembly 6 is used for extracting waste gas for the experiment table below; the dangerous experiment product supply assembly 7 is used for providing dangerous experiment liquid reagent for an experiment table below; the electrostatic processing assembly 8 is used for providing electrostatic monitoring and electrostatic elimination for the experiment table below. Thereby realizing the management and control of hydropower, ventilation, dangerous goods and static electricity in an integrated laboratory.

The telescopic connecting device 2 comprises a group of electric telescopic rods 21, a prefabricated frame connecting piece 22 and an integrated connecting piece 23, wherein one end of the prefabricated frame connecting piece 22 is provided with an inverted U-shaped connecting buckle 221, the other end is provided with a cylinder head connecting clamp 222, the U-shaped connecting buckle 221 is hung at a square pipe at the bottom of the concrete prefabricated frame 1, the cylinder head connecting clamp 222 is clamped on the telescopic heads of the electric telescopic rods 21, and the integrated connecting piece 23 is connected on the shells of the electric telescopic rods 21 and moves up and down along with the shells of the electric telescopic rods 21.

The arrangement of the inverted U-shaped connecting buckle 221 and the cylinder head connecting clamp 222 can conveniently and reliably realize the connection of the top and the concrete prefabricated frame 1, the bottom and the integrated connecting piece 23, and the extension and retraction of the rod head of the electric telescopic rod 21 can be realized by the integrated connecting piece 23, and the up-and-down movement of the shell of the electric telescopic rod 21 can be realized due to the connection of the rod head and the concrete prefabricated frame 1.

The integrated hoisting frame assembly 3 comprises a back-off ship-shaped shell 31 and a framework 32, wherein the upper part of the framework 32 is connected with a movable part of the telescopic connecting device 2 and moves up and down along with the movable part, the back-off ship-shaped shell 31 is provided with at least one detachable cover plate 311 and a fixed plate 312, the fixed plate 312 is fixedly arranged around the framework 32, the cover plate 311 is detachably arranged at the top of the framework 32 through bolts, and an equipment installation bin is arranged in a framework 32 area below the cover plate 311.

The inverted ship-shaped shell 31 and the framework 32 build a platform for providing installation for the centralized supply equipment, and the inverted ship-shaped shell 31 can complete storage after two retractable main pipelines 10 are recovered, so that the occupied space is small, and the installation is convenient and reliable.

The retractable main pipeline 10 comprises an electric push rod 101, a connecting rod 102, a centralized supply pipeline 103 and a hose, wherein a shell of the electric push rod 101 is fixedly arranged on a framework 32 and is positioned in an equipment installation bin, a rotating shaft 1021 is arranged in the middle of the connecting rod 102, two ends of the rotating shaft 1021 are rotatably arranged on the framework 32 through bearings, one end of the connecting rod 102 is connected with a rod head of the electric push rod 101 through a transmission piece, one end of the centralized supply pipeline 103 is connected with the other end of the connecting rod 102 and moves up and down along with the swinging of the connecting rod 102, one end of the hose is communicated with the end of the centralized supply pipeline 103 and is communicated with a laboratory hydroelectric power, a network cable and a ventilation reserved pipeline through pipelines.

When the centralized supply pipeline 103 needs to be put down, the rod head of the electric push rod 101 retracts to drive the connecting rod 102 to rotate, so that the centralized supply pipeline 103 is driven to be put down, when the centralized supply pipeline 103 needs to be retracted, the rod head of the electric push rod 101 extends to push the connecting rod 102 to rotate, so that the centralized supply pipeline 103 is driven to be retracted to the equipment installation bin, and the space above the experiment table is not occupied.

The water supply assembly 4 comprises a water pipe 41 and an electromagnetic water valve 42, the water pipe 41 is arranged in the concentrated supply pipeline 103 and is communicated with a laboratory water reserved pipeline, and the electromagnetic water valve 42 is arranged at the end part of the water pipe 41.

The water is connected in, and the electromagnetic water valve 42 controls the water delivery pipe 41 to be opened and closed.

The internet and electricity supply module 5 includes threading pipe, power transmission line, net twine, a set of socket 54 and net twine socket 55, and the threading pipe sets up in concentrated supply pipeline 103 to with laboratory net twine and electric wire reservation pipeline intercommunication, power transmission line and net twine set up in the threading pipe, and the power transmission line is connected with the commercial power, and a set of socket 54 is connected with the power transmission line electricity respectively, and the net twine is connected with the internet, and net twine socket 55 is connected with net twine communication.

The internet and electricity supply module 5 realizes the supply of internet and electricity, and provides a group of sockets 54 and network cable sockets 55, so that electricity is taken out and network connection is facilitated in experiments.

The ventilation assembly 6 is at least one universal hood, the ends of which are mounted to the lower portion of the frame 32 and communicate with the laboratory ventilation system.

The universal induced draft cover can be adjusted when needed in the experimental process, and the exhaust effect of various positions is achieved.

The dangerous experiment object supply assembly 7 comprises at least one dangerous object supply pipeline 71 and acid and alkali resistant electromagnetic valves 72 corresponding to the number of the dangerous object supply pipelines 71, wherein the dangerous object supply pipelines 71 are arranged in the centralized supply pipeline 103 and are communicated with a laboratory dangerous object storage device, and the acid and alkali resistant electromagnetic valves 72 are arranged at the end parts of the dangerous object supply pipelines 71.

At least two dangerous goods supply pipelines 71 can be arranged, and the two types of strong acid are mainly used for sulfuric acid and hydrochloric acid which are commonly used in laboratories, and have large use amount, if the control is not performed, the potential safety hazard is large, and the acid and alkali resistant electromagnetic valve 72 can realize valve control on the strong acid conveying pipeline.

The centralized control module comprises a box body 111, a panel 121, a control circuit board 122 based on a single-chip microcomputer, a coded lock 123 and a group of control buttons 124, wherein the box body 111 is arranged at the tail end of the centralized supply pipeline 103, the panel 121 is arranged on one side of the box body 111, a group of sockets 54 and a network cable jack 55 are respectively arranged on the panel 121, the control circuit board 122 based on the single-chip microcomputer is positioned in the box body 111 and is respectively and electrically connected with the electric push rod 101, the electromagnetic water valve 42 and the acid and alkali resistant electromagnetic valve 72 in a control mode, and the coded lock 123 and the group of control buttons 124 are respectively arranged on the panel 121 and are respectively and electrically connected with the control circuit board 122 based on the single-chip microcomputer.

When a teacher arranges a student to perform an experiment, a correct password is input through the coded lock 123, and the singlechip of the control circuit board 122 based on the singlechip receives a signal of the correct password to control the electric push rod 101, the electromagnetic water valve 42 and the acid and alkali resistant electromagnetic valve 72 to be in an on power supply state, and at the moment, the on-off of the electromagnetic water valve 42 and the acid and alkali resistant electromagnetic valve 72 and the execution action control of the electric push rod 101 are respectively realized through a group of control buttons 124.

The electrostatic processing assembly 8 includes an electrostatic tester 81 and an electrostatic eliminator 82, and the electrostatic tester 81 and the electrostatic eliminator 82 are respectively installed at the bottom of the box 111 and are respectively and electrically connected with the control circuit board 122 based on the single chip microcomputer in communication.

When the electrical instrument experiment is performed, an experimenter should use the electrostatic tester 81 to perform electrostatic test on the experiment table and the experiment instrument, and the experiment can be started only when the electrostatic requirement is met, if the instantaneous electrostatic value exceeds 100V, the electrostatic eliminator 82 is required to eliminate the static electricity on the part, so as to avoid instrument damage or more serious electric shock accidents.

The embodiment of the utility model relates to a solar charging positioning and tracking module and a life buoy with the same, wherein the implementation principle is as follows:

in the application scenario of the laboratory, when a teacher needs to arrange a student to perform an experiment, a correct password is input through the password lock 123, and the singlechip of the control circuit board 122 based on the singlechip receives a signal with the correct password to control the electric push rod 101, the electromagnetic water valve 42 and the acid and alkali resistant electromagnetic valve 72 to be in a power supply on state, and at the moment, the electric push rod 101 is respectively controlled by a group of control buttons 124, and the electromagnetic water valve 42 and the acid and alkali resistant electromagnetic valve 72 are switched on and off, and the execution action of the electric push rod 101 is controlled.

When sulfuric acid is needed, the experimental container is placed below the acid and alkali resistant electromagnetic valve 72, the corresponding control button 124 is pressed, and the acid and alkali resistant electromagnetic valve 72 is opened to supply sulfuric acid;

when water is needed, the experimental container is placed below the electromagnetic water valve 42 in a similar way, the corresponding control button 124 is pressed, and the electromagnetic water valve 42 is opened to supply water;

when electricity is needed, the plug is only needed to be inserted into the socket 54;

when the network is needed, the network cable is only needed to be inserted into the network cable jack 55;

the universal air suction cover can be adjusted when needed in the experimental process, so that the air exhaust effect of various positions is achieved;

when the electrical instrument experiment is performed, an experimenter should use the electrostatic tester 81 to perform electrostatic test on the experiment table and the experiment instrument, and the experiment can be started only when the electrostatic requirement is met, if the instantaneous electrostatic value exceeds 100V, the electrostatic eliminator 82 is required to eliminate the static electricity on the part, so as to avoid instrument damage or more serious electric shock accidents.

When the experiment is completed, a teacher cuts off the power through the corresponding control button 124, and simultaneously the rod head of the electric push rod 101 stretches out to push the connecting rod 102 to rotate, so that the centralized supply pipeline 103 is driven to be retracted to the equipment installation bin, and the space above the experiment table is not occupied.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (1)

1. Intelligent integrated hoisting diversified supply equipment in laboratory is characterized in that: the integrated hoisting frame assembly comprises three concrete prefabricated frames (1), a telescopic connecting device (2), an integrated hoisting frame assembly (3) and a laboratory diversified supply device, wherein the concrete prefabricated frames (1) are pre-buried in laboratory girders, one end of the telescopic connecting device (2) is connected to the bottom of the concrete prefabricated frames (1), the top of the integrated hoisting frame assembly (3) is connected with the other end of the telescopic connecting device (2) and moves up and down along with the movable part of the telescopic connecting device (2), and the laboratory diversified supply device comprises at least one retractable main pipeline (10), a water supply assembly (4), an Internet and electricity supply module (5), a ventilation assembly (6), a dangerous experiment product supply assembly (7) and an electrostatic treatment assembly (8);

the retractable main pipeline (10), the water supply assembly (4), the Internet and electricity supply module (5), the ventilation assembly (6), the dangerous experiment product supply assembly (7) and the static electricity treatment assembly (8) are respectively arranged on the integrated hoisting frame assembly (3);

the three concrete prefabricated frames are pre-buried in a laboratory girder, the whole integrated hoisting frame assembly and the laboratory diversified supply device are connected to the bottom of the concrete prefabricated frame through the telescopic connection device, the distance between the whole equipment and a laboratory desktop can be adjusted by adjusting the telescopic connection device, the laboratory diversified supply device can provide a retractable main pipeline which can be put down and retracted, the retraction is realized without occupying space when the laboratory is not used, and the water supply assembly is used for providing experimental water for the laboratory below; the Internet and electricity supply module is used for providing experimental electricity and an Internet interface for the experiment table below; the ventilation assembly is used for extracting waste gas for the experiment table below; the dangerous experiment product supply assembly is used for providing dangerous experiment liquid reagent for an experiment table below; the static treatment component is used for providing static monitoring and static elimination for a laboratory table below, so that the integrated management and control of hydropower, ventilation, dangerous goods and static in a laboratory are realized;

the retractable main pipeline (10) is used for providing a concentrated passage for each pipeline and can be put down for retraction;

the water supply assembly (4) is used for providing experimental water for an experiment table below;

the Internet and electricity supply module (5) is used for providing experimental electricity and an Internet interface for an experiment table below;

the ventilation assembly (6) is used for extracting waste gas for the experiment table below;

the dangerous experiment product supply assembly (7) is used for providing dangerous experiment liquid reagent for an experiment table below;

the static electricity treatment component (8) is used for providing static electricity monitoring and static electricity elimination for the experiment table below;

the telescopic connecting device (2) comprises a group of electric telescopic rods (21), a prefabricated frame connecting piece (22) and an integrated connecting piece (23), wherein an inverted U-shaped connecting buckle (221) is arranged at one end of the prefabricated frame connecting piece (22), a cylinder head connecting clamp (222) is arranged at the other end of the prefabricated frame connecting piece, the U-shaped connecting buckle (221) is hung at a square tube at the bottom of the concrete prefabricated frame (1), the cylinder head connecting clamp (222) is clamped on a telescopic head of the electric telescopic rod (21), and the integrated connecting piece (23) is connected to a shell of the electric telescopic rod (21) and moves up and down along with the up and down of the shell of the electric telescopic rod (21);

the arrangement of the inverted U-shaped connecting buckle and the cylinder head connecting clamp can conveniently and reliably realize the extension and retraction of the rod head of the electric telescopic rod because the rod head is connected with the concrete prefabricated frame, and the integrated connecting piece can move up and down and up and down with the shell of the electric telescopic rod;

the integrated hoisting frame assembly (3) comprises a back-off ship-shaped shell (31) and a framework (32), wherein the upper part of the framework (32) is connected with a movable part of the telescopic connecting device (2) and moves up and down along with the movable part, the back-off ship-shaped shell (31) is provided with at least one detachable cover plate (311) and a fixing plate (312), the fixing plate (312) is fixedly arranged around the framework (32), the cover plate (311) is detachably arranged at the top of the framework (32) through bolts, and an equipment installation bin is arranged in the framework (32) area below the cover plate (311);

the inverted ship-shaped shell and the framework are built to provide a platform for installing the centralized supply equipment, and the inverted ship-shaped shell can complete storage after the two retractable main pipelines are recovered;

the Internet and electricity supply module (5) comprises a threading pipe, a transmission line, a network cable, a group of sockets (54) and a network cable socket (55), wherein the threading pipe is arranged in the centralized supply pipeline (103) and is communicated with a laboratory network cable and an electric wire reserved pipeline, the transmission line and the network cable are arranged in the threading pipe, the transmission line is connected with a mains supply, the group of sockets (54) are respectively electrically connected with the transmission line, the network cable is connected with the Internet, and the network cable socket (55) is in communication connection with the network cable;

the centralized control module comprises a box body (111), a panel (121), a control circuit board (122) based on a single chip microcomputer, a coded lock (123) and a group of control buttons (124), wherein the box body (111) is arranged at the tail end of a centralized supply pipeline (103), the panel (121) is arranged on one side of the box body (111), a group of sockets (54) and a network cable inserting opening (55) are respectively arranged on the panel (121), the control circuit board (122) based on the single chip microcomputer is positioned in the box body (111) and is respectively and electrically connected with an electric push rod (101), an electromagnetic water valve (42) and an acid-alkali-resistant electromagnetic valve (72) in a control mode, and the coded lock (123) and the group of control buttons (124) are respectively arranged on the panel (121) and are respectively and electrically connected with the control circuit board (122) based on the single chip microcomputer;

when an experiment is carried out, a correct password is input through the password lock, the singlechip of the control circuit board based on the singlechip receives a signal with the correct password, and then the electric push rod, the electromagnetic water valve and the acid and alkali resistant electromagnetic valve are controlled to be in an on power supply state, and at the moment, the control is realized through a group of control buttons, the electromagnetic water valve and the acid and alkali resistant electromagnetic valve are respectively switched on and off, and the execution action of the electric push rod is controlled;

the static processing assembly (8) comprises a static tester (81) and a static eliminator (82), wherein the static tester (81) and the static eliminator (82) are respectively arranged at the bottom of the box body (111) and are respectively and electrically connected with a control circuit board (122) based on a singlechip in a communication way;

the retractable main pipeline (10) comprises an electric push rod (101), a connecting rod (102), a centralized supply pipeline (103) and a hose, wherein a shell of the electric push rod (101) is fixedly arranged on a framework (32) and is positioned in an equipment installation bin, a rotating shaft (1021) is arranged in the middle of the connecting rod (102), two ends of the rotating shaft (1021) are rotatably arranged on the framework (32) through bearings, one end of the connecting rod (102) is connected with a rod head of the electric push rod (101) through a transmission piece, one end of the centralized supply pipeline (103) is connected with the other end of the connecting rod (102) and moves up and down along with the swinging of the connecting rod (102), and one end of the hose is communicated with the end of the centralized supply pipeline (103) and is communicated with a laboratory hydroelectric power, a network cable and a ventilation reserved pipeline through pipelines;

when the centralized supply pipeline is required to be put down, the rod head of the electric push rod is retracted to drive the connecting rod to rotate, so that the centralized supply pipeline is driven to be put down, and when the centralized supply pipeline is required to be retracted, the rod head of the electric push rod extends out to push the connecting rod to rotate, so that the centralized supply pipeline is driven to be retracted to the equipment installation bin, and the space above the experiment table is not occupied;

the water supply assembly (4) comprises a water pipe (41) and an electromagnetic water valve (42), the water pipe (41) is arranged in the centralized supply pipeline (103) and is communicated with the laboratory water reserved pipeline, and the electromagnetic water valve (42) is arranged at the end part of the water pipe (41);

the ventilation assembly (6) is at least one universal exhaust hood, and the end part of the universal exhaust hood is arranged at the lower part of the framework (32) and is communicated with the laboratory exhaust system;

dangerous experiment article supply assembly (7) include at least one dangerous article supply pipe way (71) and with dangerous article supply pipe way (71) acid and alkali resistant solenoid valve (72) that quantity corresponds, dangerous article supply pipe way (71) set up in concentrated supply pipe way (103) to store the accumulator intercommunication of dangerous article with the laboratory, acid and alkali resistant solenoid valve (72) are installed in the tip of dangerous article supply pipe way (71).