CN113893899A - Physical experiment operating platform and method - Google Patents

Abstract

The invention discloses a physical experiment operating platform and a method, relates to the technical field of experiment platforms, and solves the problems that the existing physical experiment has high requirements on test conditions, the operating platform is inconvenient to level and has poor functionality, and the requirements of various experiments cannot be met. The utility model provides a physics experiment operation platform and method, includes the experiment mainboard, instrument sorting mechanism is installed to the inboard of experiment mainboard one end, cable roll-up mechanism is installed to the inboard of the experiment mainboard other end, the inboard fixed mounting in experiment mainboard middle part has ramp adjustment mechanism, ramp adjustment mechanism includes movable swash plate, connects the slide, hides install bin, second drive screw, second drive motor, connects transmission bulb and spacing guide sleeve. According to the invention, the experiment platform is leveled, so that the stability of experiment conditions is effectively ensured, and the structure is installed in a hidden manner, so that various experiment requirements can be met conveniently.

Description

Physical experiment operating platform and method

Technical Field

The invention relates to the technical field of experiment platforms, in particular to a physical experiment operation platform and a physical experiment operation method.

Background

With the rapid development of social economy, the variety of physical experiments is more and more, physics is a subject for researching the most general rule of motion of substances and the basic structure of the substances, and is used as a leading subject of natural science, the physics research is as large as the universe and as small as the most basic motion form and rule of all substances such as basic particles, and the like, so that the physics experiment becomes the research foundation of other natural science subjects, and the requirement on a platform of the physical experiments is higher and higher.

However, the existing physical experiment has high requirements on test conditions, and the operation platform is inconvenient to level and poor in functionality, so that the requirements of various experiments cannot be met; therefore, the existing requirements are not met, and a physical experiment operation platform and a method are provided for the requirement.

Disclosure of Invention

The invention aims to provide a physical experiment operating platform and a method, which are used for solving the problems that the existing physical experiment proposed in the background technology has high requirements on test conditions, the operating platform is inconvenient to level and has poor functionality, and the requirements of various experiments cannot be met.

In order to achieve the purpose, the invention provides the following technical scheme: a physical experiment operating platform comprises an experiment mainboard, wherein an instrument classification mechanism is installed on the inner side of one end of the experiment mainboard, a cable winding mechanism is installed on the inner side of the other end of the experiment mainboard, a ramp adjusting mechanism is fixedly installed on the inner side of the middle part of the experiment mainboard, the ramp adjusting mechanism comprises a movable inclined plate, a connecting sliding plate, a hidden installation box, a second transmission screw, a second transmission motor, a connecting transmission ball head and a limiting guide sleeve, the inner side of the hidden installation box is connected with the second transmission screw in a sliding manner, the second transmission motor is installed at one end of the second transmission screw, a limiting guide sleeve is installed on the outer side of one end of the second transmission screw, which is positioned on the inner side of the hidden installation box, the connecting transmission ball head is installed on the inner side of the upper end of the limiting guide sleeve, and a connecting sliding plate is connected on the outer side of the upper end of the connecting transmission ball head in a sliding manner, and a movable inclined plate is fixedly arranged on the upper end surface of the connecting sliding plate.

Preferably, the lower terminal surface fixed mounting of experiment mainboard has platform installation mechanism, horizontal display mechanism is installed to one side of platform installation mechanism, horizontal display mechanism is including showing box body, first spirit level and second spirit level, the second spirit level is installed to the inboard of showing the box body, first spirit level is installed to one side of second spirit level, platform installation mechanism's inboard fixed mounting has transmission of electricity mechanism, transmission of electricity mechanism includes battery box, adapter and wire strip, the adapter is installed to the one end of battery box, one side of adapter is provided with two wire strips, battery box and adapter pass through electric connection, leveling mechanism is installed to transmission of electricity mechanism's lower terminal surface.

Preferably, the platform mounting mechanism comprises a platform protection shell, a movable storage sealing plate, a storage rack and a separation support plate, the platform protection shell is fixedly mounted on the outer side of the separation support plate, the storage rack is fixedly mounted on one side of the platform protection shell, and the movable storage sealing plate is slidably connected to one side of the storage rack.

Preferably, the cable winding mechanism comprises an installation chassis, a rotary winding frame, guide cylinders, connecting cylinders, winding retaining rods and a limiting operation frame, the outer side of the upper end of each guide cylinder is connected with the installation chassis in a sliding mode, eight connecting cylinders are fixedly installed on the upper end face of the installation chassis, the outer side of each connecting cylinder is connected with the rotary winding frame in a sliding mode, six winding retaining rods are evenly installed on the outer side of the rotary winding frame, and one limiting operation frame is installed on the outer side of the upper end of each connecting cylinder.

Preferably, instrument sorting mechanism is including sliding hidden case, transparent activity picture peg, first drive screw, first drive motor and vertical baffle, five vertical baffles are evenly installed to the inboard of sliding hidden case, one side sliding connection of sliding hidden case has six transparent activity picture pegs, first drive screw is installed to the inboard of sliding hidden case one end, first drive motor is installed to the bottom of sliding hidden case.

Preferably, leveling mechanism presses seat and electric putter under including supporting baseplate, oval support bar, connection horizontal pole, pulley installation frame, connection cardboard, transmission, the up end fixed mounting of supporting baseplate has four electric putter, the middle part fixed mounting of terminal surface has the connection cardboard under the supporting baseplate, connect the inboard of cardboard and install oval support bar, two are installed to the inboard of oval support bar and connect the horizontal pole, two connect the both ends of horizontal pole and install the transmission and press the seat down, the transmission presses the lower terminal surface fixed mounting of seat to have pulley installation frame down.

Preferably, the both ends of second drive screw all are connected through the bearing with hiding the install bin, second drive screw passes through threaded connection with spacing guide sleeve, spring coupling is passed through with the bottom of being connected the transmission bulb in spacing guide sleeve's upper end, the inboard of connecting the slide is provided with the spout, the upper end of connecting the transmission bulb extends to the inboard of spout, the activity swash plate passes through the screw connection with being connected the slide and fixes.

Compared with the prior art, the operating platform has the beneficial effects that:

according to the invention, the experiment platform is leveled, the stability of experiment conditions is effectively ensured, the structure is installed in a hidden manner, various experiment requirements are conveniently met, and meanwhile, the cable is wound, so that the effect of accommodating experiment articles, tools and cables is conveniently improved.

A method for using a physical experiment operating platform comprises the following steps:

(A) the whole body is placed on the ground through the oval support strip, so that the whole body is in an inclined state under the supporting action of the oval support strip, the whole is adjusted, the power supply is switched on, four electric push rods are arranged on the upper end surface of the supporting bottom plate, the bottom end of the electric push rod penetrates through the supporting bottom plate and is connected with the two ends of the transmission pressing seat through the positioning pin, the electric push rod is started, so that the electric push rod drives the pulley mounting frame to move downwards through the transmission pressing seat under the supporting action of the supporting bottom plate, and then the four electric push rods drive the connecting cross rod to bend when adjusting the horizontal angle of the pulley mounting frame, meanwhile, the first level gauge and the second level gauge are arranged on the inner side of the display box body, so that the control on the whole adjustment can be realized through the first level gauge and the second level gauge, and the stability and accuracy in the whole experiment are further facilitated;

(B) the inner side of the platform protection shell is provided with a storage rack, so that the storage rack is opened and closed by a movable storage sealing plate, experimental articles are conveniently stored and placed through the storage rack, a first transmission motor is started, the upper end of a first transmission screw is in threaded connection with a sliding hidden box, the first transmission motor drives the sliding hidden box to be subjected to height adjustment through the first transmission screw under the supporting action of a separation supporting plate, a vertical partition plate is arranged on the inner side of the sliding hidden box, so that experimental tools can be placed through the sliding hidden box and the vertical partition plate, the experimental tools can be conveniently taken out by opening a transparent movable insertion plate, and the upper end face of an experimental mainboard can be kept flat after the first transmission motor is reset;

(C) the limiting operation frame is lifted, so that the limiting operation frame drives the installation chassis to move upwards on the outer side of the guide cylinder through the connecting cylinder, the limiting operation frame is convenient to drive the installation chassis to rotate on the inner side of one end of the experiment main board through the connecting cylinder, meanwhile, the rotary winding frame and the winding retaining rod can rotate on the outer side of the connecting cylinder, cables wound on the outer side of the cable winding mechanism can be conveniently taken, and the use is convenient;

(D) the hidden installation box is installed on the inner side of the platform protection shell, two ends of the second transmission screw are connected with the hidden installation box through bearings, the second transmission motor is started, the second transmission screw is in threaded connection with the bottom end of the limiting guide sleeve, so that the second transmission motor drives the limiting guide sleeve to transversely move through the second transmission screw under the supporting action of the hidden installation box, the upper end of the limiting guide sleeve is connected with the bottom end of the connecting transmission ball head through a spring, the limiting guide sleeve slides on the inner side of the connecting sliding plate through the upper end of the connecting transmission ball head, the connecting sliding plate drives the movable inclined plate to adjust the angle, and further the experiment is carried out on the upper end face of the movable inclined plate;

(E) through carrying out hidden placing to cable roll-up mechanism, instrument classification mechanism and ramp adjustment mechanism, be convenient for carry out make full use of to the up end of experiment mainboard, and the going on of being convenient for operate, install transmission of electricity mechanism in platform protective housing's inboard for be convenient for carry out the supply of electric energy through transmission of electricity mechanism when wholly removing through leveling mechanism.

Preferably, the upper end face of the separation supporting plate is provided with two buffer blocks, the bottom end of the installation chassis is connected with the separation supporting plate through the buffer blocks, the rotary winding frame is connected with the connecting cylinder through a bearing, and the two ends of the connecting cylinder are connected with the installation chassis and the limiting operation frame through threads.

Preferably, the both ends of seat are pressed down in the transmission and the bottom of electric putter is passed through the locating pin and is connected, the transmission is pressed down the seat and is passed through the screw connection with the pulley installation frame and fix, the inboard at pulley installation frame both ends all is provided with the pulley, the both ends of connecting the horizontal pole are all through threaded connection with the transmission is pressed the seat down, it is rigid plastic to connect the horizontal pole.

Compared with the prior art, the using method has the beneficial effects that:

according to the invention, the platform structure is hidden, so that the platform structure can be hidden and pushed out automatically, the experimental article can be taken and placed conveniently, the surface of the experimental platform is subjected to angle adjustment, the experimental difficulty is reduced, and the experiment can be operated more intuitively.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a bottom view of the present invention in its entirety;

FIG. 3 is a schematic structural view of a leveling mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view of the present invention;

FIG. 5 is a schematic structural view of a battery case according to the present invention;

FIG. 6 is a schematic cross-sectional view of the tool sorting mechanism of the present invention;

FIG. 7 is a schematic view of a portion of a cross-sectional view of the ramp adjustment mechanism of the present invention;

fig. 8 is a schematic cross-sectional structure view of the cable retracting mechanism of the present invention.

In the figure: 1. a platform mounting mechanism; 101. a platform protective housing; 102. a movable storage sealing plate; 103. a storage rack; 104. a separation support plate; 2. a horizontal display mechanism; 201. a display box; 202. a first level; 203. a second level; 3. a cable winding mechanism; 301. installing a chassis; 302. rotating the furling frame; 303. a guide cylinder; 304. connecting the columns; 305. a retraction holding rod; 306. a limiting operation frame; 4. a tool sorting mechanism; 401. a sliding hidden box; 402. a transparent movable plugboard; 403. a first drive screw; 404. a first drive motor; 405. a vertical partition plate; 5. a ramp adjustment mechanism; 501. a movable sloping plate; 502. connecting a sliding plate; 503. hiding the installation box; 504. a second drive screw; 505. a second drive motor; 506. connecting a transmission ball head; 507. a limiting guide sleeve; 6. a leveling mechanism; 601. a support base plate; 602. an oval support bar; 603. connecting the cross bars; 604. a pulley mounting frame; 605. connecting a clamping plate; 606. a transmission pressing seat; 607. an electric push rod; 7. a power transmission mechanism; 701. a battery case; 702. an adapter; 703. a wire guide; 8. experiment mainboard.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The first drive motor 404 (model number YS7134), the second drive motor 505 (model number YEJ3-112M-4) and the power push rod 607 (model number HTKC-35) referred to in the present invention are commercially available or custom made.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a physical experiment operating platform comprises an experiment mainboard 8, a tool classification mechanism 4 is installed on the inner side of one end of the experiment mainboard 8, experimental articles can be conveniently taken and placed and automatically hidden through the tool classification mechanism 4, a cable furling mechanism 3 is installed on the inner side of the other end of the experiment mainboard 8, a ramp adjusting mechanism 5 is fixedly installed on the inner side of the middle part of the experiment mainboard 8, the ramp adjusting mechanism 5 comprises a movable inclined plate 501, a connecting sliding plate 502, a hidden installation box 503, a second transmission screw 504, a second transmission motor 505, a connecting transmission ball 506 and a limiting guide sleeve 507, the inner side of the hidden installation box 503 is slidably connected with the second transmission screw 504, one end of the second transmission screw 504 is provided with the second transmission motor 505, the outer side of one end of the second transmission screw 504 is positioned on the inner side of the hidden installation box 503 and provided with the limiting guide sleeve 507, and the inner side of the upper end of the limiting guide sleeve 507 is provided with the connecting transmission ball 506, the outside sliding connection of connecting transmission bulb 506 upper end has connection slide 502, and the up end fixed mounting of connecting slide 502 has movable swash plate 501, is convenient for drive movable swash plate 501 through connecting transmission bulb 506 and carries out the regulation of angle, wholly through carrying out the leveling to the experiment platform, effectively guarantees the stability of experimental condition, and carries out hidden installation to the structure, is convenient for satisfy multiple experiment demand.

Further, lower terminal surface fixed mounting of experiment mainboard 8 has platform installation mechanism 1, one side of platform installation mechanism 1 is installed horizontal display mechanism 2, horizontal display mechanism 2 is including showing box body 201, first spirit level 202 and second spirit level 203, show that the inboard of box body 201 is installed second spirit level 203, first spirit level 202 is installed to one side of second spirit level 203, inboard fixed mounting of platform installation mechanism 1 has transmission mechanism 7, transmission mechanism 7 includes battery box 701, adapter 702 and wire strip 703, adapter 702 is installed to the one end of battery box 701, one side of adapter 702 is provided with two wire strips 703, battery box 701 passes through electric connection with adapter 702, leveling mechanism 6 is installed to the lower terminal surface of transmission mechanism 7, be convenient for carry out real-time display to whole leveling result through horizontal display mechanism 2.

Further, platform installation mechanism 1 includes platform protective housing 101, storing activity shrouding 102, storing frame 103 and separates backup pad 104, separates the outside fixed mounting of backup pad 104 and has platform protective housing 101, and one side fixed mounting of platform protective housing 101 has storing frame 103, and one side sliding connection of storing frame 103 has storing activity shrouding 102, is convenient for install multiple functional structure through platform installation mechanism 1.

Further, the cable winding mechanism 3 comprises an installation chassis 301, a rotary winding frame 302, a guide cylinder 303, a connection cylinder 304, a winding retaining rod 305 and a limiting operation frame 306, the outer side of the upper end of the guide cylinder 303 is connected with the installation chassis 301 in a sliding manner, eight connection cylinders 304 are fixedly installed on the upper end face of the installation chassis 301, the outer side of the connection cylinder 304 is connected with the rotary winding frame 302 in a sliding manner, six winding retaining rods 305 are evenly installed on the outer side of the rotary winding frame 302, one limiting operation frame 306 is installed on the outer side of the upper ends of the eight connection cylinders 304, and the cable can be wound and hidden conveniently through the cable winding mechanism 3.

Further, tool sorting mechanism 4 includes sliding hidden box 401, transparent movable insertion plate 402, first transmission screw 403, first transmission motor 404 and vertical baffle 405, five vertical baffles 405 are evenly installed to sliding hidden box 401's inboard, one side sliding connection of sliding hidden box 401 has six transparent movable insertion plates 402, first transmission screw 403 is installed to the inboard of sliding hidden box 401 one end, first transmission motor 404 is installed to sliding hidden box 401's bottom, be convenient for get put and automatic hiding the experimental article through tool sorting mechanism 4.

Further, the leveling mechanism 6 comprises a supporting base plate 601, an oval supporting bar 602, connecting cross rods 603, a pulley mounting frame 604, a connecting clamping plate 605, a transmission pressing base 606 and electric push rods 607, four electric push rods 607 are fixedly mounted on the upper end face of the supporting base plate 601, the connecting clamping plate 605 is fixedly mounted in the middle of the lower end face of the supporting base plate 601, the oval supporting bar 602 is mounted on the inner side of the connecting clamping plate 605, two connecting cross rods 603 are mounted on the inner side of the oval supporting bar 602, the transmission pressing bases 606 are mounted at two ends of the two connecting cross rods 603, the pulley mounting frame 604 is fixedly mounted on the lower end face of the transmission pressing base 606, and the leveling operation of the whole body is facilitated through the leveling mechanism 6.

Further, both ends of the second transmission screw 504 are connected with the hidden installation box 503 through bearings, the second transmission screw 504 is connected with the limiting guide sleeve 507 through threads, the upper end of the limiting guide sleeve 507 is connected with the bottom end of the connecting transmission ball head 506 through a spring, a sliding groove is formed in the inner side of the connecting sliding plate 502, the upper end of the connecting transmission ball head 506 extends to the inner side of the sliding groove, the movable inclined plate 501 is fixed with the connecting sliding plate 502 through screw connection, and the movable inclined plate 501 is driven to adjust the angle through the connecting transmission ball head 506.

A method for using a physical experiment operating platform comprises the following steps:

(A) the whole body is placed on the ground through the oval support bar 602, so that the whole body is in an inclined state under the supporting action of the oval support bar 602, the whole body is adjusted, the power supply is switched on, four electric push rods 607 are installed on the upper end surface of the support base plate 601, the bottom ends of the electric push rods 607 penetrate through the support base plate 601 and are connected with the two ends of the transmission pressing base 606 through positioning pins, the electric push rods 607 are started, so that the electric push rods 607 drive the pulley installation frame 604 to move downwards through the transmission pressing base 606 under the supporting action of the support base plate 601, the connection cross rod 603 is driven to bend when the four electric push rods 607 adjust the horizontal angle of the pulley installation frame 604, meanwhile, the first level 202 and the second level 203 are installed on the inner side of the display box body 201, and the control of the whole body adjustment can be realized through the first level 202 and the second level 203, thereby being convenient for the stability and accuracy of the whole experiment;

(B) the inner side of the platform protection shell 101 is provided with a storage rack 103, so that the storage rack 103 is opened and closed by the movable storage close plate 102, experimental articles can be conveniently stored and placed through the storage rack 103, the first transmission motor 404 is started, the upper end of the first transmission screw 403 is in threaded connection with the sliding hidden box 401, so that the first transmission motor 404 drives the sliding hidden box 401 to perform height adjustment through the first transmission screw 403 under the supporting action of the separation supporting plate 104, the inner side of the sliding hidden box 401 is provided with a vertical partition plate 405, so that experimental tools can be placed through the sliding hidden box 401 and the vertical partition plate 405, the experimental tools can be conveniently taken out by opening the transparent movable insertion plate 402, and the upper end face of the experimental main plate 8 can be conveniently kept flat after the first transmission motor 404 is reset;

(C) the limiting operation frame 306 is lifted, so that the limiting operation frame 306 drives the installation chassis 301 to move upwards on the outer side of the guide column 303 through the connecting column 304, the limiting operation frame 306 is convenient to drive the installation chassis 301 to rotate on the inner side of one end of the experiment mainboard 8 through the connecting column 304, meanwhile, the rotary winding frame 302 and the winding keeping rod 305 can rotate on the outer side of the connecting column 304, and cables wound on the outer side of the cable winding mechanism 3 can be conveniently taken and used;

(D) a hidden installation box 503 is installed on the inner side of the platform protection shell 101, two ends of a second transmission screw 504 are connected with the hidden installation box 503 through bearings, a second transmission motor 505 is started, the second transmission screw 504 is in threaded connection with the bottom end of a limiting guide sleeve 507, so that the second transmission motor 505 drives the limiting guide sleeve 507 to transversely move through the second transmission screw 504 under the supporting effect of the hidden installation box 503, the upper end of the limiting guide sleeve 507 is connected with the bottom end of a connecting transmission ball head 506 through a spring, the limiting guide sleeve 507 slides on the inner side of a connecting sliding plate 502 through the upper end of the connecting transmission ball head 506, the connecting sliding plate 502 is convenient to drive the movable inclined plate 501 to adjust the angle, and an experiment is further performed on the upper end face of the movable inclined plate 501;

(E) through carrying out hidden placing to cable roll-up mechanism 3, instrument sorting mechanism 4 and ramp adjustment mechanism 5, be convenient for carry out make full use of to the up end of experiment mainboard 8, and the operation of being convenient for goes on, install transmission of electricity mechanism 7 in the inboard of platform protective housing 101 for whole be convenient for carry out the supply of electric energy through transmission of electricity mechanism 7 when removing through leveling mechanism 6.

Further, the upper end face of separating the backup pad 104 is provided with two buffer blocks, the bottom of installation chassis 301 passes through the buffer block with separating the backup pad and is connected, rotatory roll-up frame 302 passes through the bearing with connecting cylinder 304 and is connected, and the both ends of connecting cylinder 304 all pass through threaded connection with installation chassis 301 and spacing handling frame 306, are convenient for cushion the bottom of installation chassis 301 through the buffer block.

Further, the both ends of seat 606 are pressed in the transmission and the bottom of electric putter 607 is passed through the locating pin and is connected, and the transmission is pressed seat 606 and pulley installation frame 604 and is passed through bolted connection fixed, and the inboard at pulley installation frame 604 both ends all is provided with the pulley, and the both ends of connecting horizontal pole 603 all pass through threaded connection with transmission and press seat 606, and it is hard plastic to connect horizontal pole 603, is convenient for press seat 606 to connect two transmissions through connecting horizontal pole 603.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a physics experiment operation platform, includes experiment mainboard (8), its characterized in that: the tool classification mechanism (4) is installed on the inner side of one end of the experiment main board (8), the cable winding mechanism (3) is installed on the inner side of the other end of the experiment main board (8), a ramp adjusting mechanism (5) is fixedly installed on the inner side of the middle portion of the experiment main board (8), the ramp adjusting mechanism (5) comprises a movable inclined board (501), a connecting sliding board (502), a hidden installation box (503), a second transmission screw (504), a second transmission motor (505), a connecting transmission ball head (506) and a limiting guide sleeve (507), the inner side of the hidden installation box (503) is slidably connected with the second transmission screw (504), the second transmission motor (505) is installed at one end of the second transmission screw (504), the limiting guide sleeve (507) is installed on the inner side, which is located on the hidden installation box (503), of the outer side of one end of the second transmission screw (504), the connecting and driving ball head (506) is installed on the inner side of the upper end of the limiting guide sleeve (507), the connecting and driving ball head (506) is connected with a connecting sliding plate (502) in a sliding mode on the outer side of the upper end of the connecting and driving ball head, and a movable inclined plate (501) is fixedly installed on the upper end face of the connecting sliding plate (502).

2. The physical experiment operating platform of claim 1, wherein: the lower end face of the experiment mainboard (8) is fixedly provided with a platform installation mechanism (1), one side of the platform installation mechanism (1) is provided with a horizontal display mechanism (2), the horizontal display mechanism (2) comprises a display box body (201), a first level meter (202) and a second level meter (203), the inner side of the display box body (201) is provided with the second level meter (203), the first level meter (202) is arranged on one side of the second level meter (203), the inner side of the platform installation mechanism (1) is fixedly provided with a power transmission mechanism (7), the power transmission mechanism (7) comprises a battery box body (701), an adapter (702) and lead strips (703), the adapter (702) is arranged at one end of the battery box body (701), two lead strips (703) are arranged on one side of the adapter (702), and the battery box body (701) is electrically connected with the adapter (702), and a leveling mechanism (6) is arranged on the lower end surface of the power transmission mechanism (7).

3. The physical experiment operating platform of claim 1, wherein: platform installation mechanism (1) includes platform protective housing (101), storing activity shrouding (102), storing frame (103) and separates backup pad (104), the outside fixed mounting who separates backup pad (104) has platform protective housing (101), one side fixed mounting of platform protective housing (101) has storing frame (103), one side sliding connection of storing frame (103) has storing activity shrouding (102).

4. The physical experiment operating platform of claim 1, wherein: cable roll-up mechanism (3) are including installation chassis (301), rotatory roll-up frame (302), guide cylinder (303), connection cylinder (304), roll-up keep pole (305) and spacing handling frame (306), the outside sliding connection of guide cylinder (303) upper end has installation chassis (301), the up end fixed mounting of installation chassis (301) has eight connection cylinders (304), the outside sliding connection of connecting cylinder (304) has rotatory roll-up frame (302), six roll-up keep pole (305) are evenly installed in the outside of rotatory roll-up frame (302), eight a spacing handling frame (306) is installed in the outside of connecting cylinder (304) upper end.

5. The physical experiment operating platform of claim 1, wherein: tool classification mechanism (4) are including slip fridge (401), transparent activity picture peg (402), first drive screw (403), first drive motor (404) and vertical baffle (405), five vertical baffles (405) are evenly installed to the inboard of slip fridge (401), one side sliding connection of slip fridge (401) has six transparent activity picture pegs (402), first drive screw (403) are installed to the inboard of slip fridge (401) one end, first drive motor (404) are installed to the bottom of slip fridge (401).

6. The physical experiment operating platform of claim 2, wherein: leveling mechanism (6) press seat (606) and electric putter (607) under supporting baseplate (601), oval support bar (602), connection horizontal pole (603), pulley installation frame (604), connection cardboard (605), transmission, the up end fixed mounting of supporting baseplate (601) has four electric putter (607), the middle part fixed mounting of terminal surface has connection cardboard (605) under supporting baseplate (601), oval support bar (602) is installed to the inboard of connecting cardboard (605), two connection horizontal poles (603), two are installed to the inboard of oval support bar (602) the both ends of connecting horizontal pole (603) are installed the transmission and are pressed seat (606) down, the lower terminal surface fixed mounting that presses seat (606) under the transmission has pulley installation frame (604).

7. The physical experiment operating platform of claim 1, wherein: the both ends of second drive screw (504) all are connected through the bearing with hidden install bin (503), second drive screw (504) pass through threaded connection with spacing guide sleeve (507), spring coupling is passed through with the bottom of being connected transmission bulb (506) to the upper end of spacing guide sleeve (507), the inboard of connecting slide (502) is provided with the spout, the upper end of connecting transmission bulb (506) extends to the inboard of spout, activity swash plate (501) pass through the screw connection with being connected slide (502) and fix.

8. A physical experiment operation platform using method is characterized in that: the operating platform using method comprises the following steps:

(A) the whole body is placed on the ground through an oval support bar (602), so that the whole body is in an inclined state under the supporting action of the oval support bar (602), the whole body is adjusted, a power supply is switched on, four electric push rods (607) are installed on the upper end face of a support base plate (601), the bottom ends of the electric push rods (607) penetrate through the support base plate (601) and are connected with the two ends of a transmission pressing seat (606) through positioning pins, the electric push rods (607) are started, so that the electric push rods (607) drive a pulley installation frame (604) to move downwards through the transmission pressing seat (606) under the supporting action of the support base plate (601), the four electric push rods (607) drive a connecting cross rod (603) to bend when adjusting the horizontal angle of the pulley installation frame (604), and meanwhile, a first level gauge (202) and a second level gauge (203) are installed on the inner side of a display box body (201), the first level meter (202) and the second level meter (203) can realize the control of the overall adjustment, thereby facilitating the stability and accuracy of the overall experiment;

(B) a storage rack (103) is arranged on the inner side of the platform protection shell (101) so that the storage rack (103) is opened and closed by a movable storage close plate (102), the experimental articles are stored and placed conveniently through the storage rack (103), the first transmission motor (404) is started, the upper end of the first transmission screw rod (403) is connected with the sliding hidden box (401) through threads, so that the first transmission motor (404) drives the sliding hidden box (401) to carry out height adjustment through the first transmission screw (403) under the supporting action of the separation supporting plate (104), a vertical clapboard (405) is arranged at the inner side of the sliding hidden box (401), so that the experimental tool can be placed through the sliding hidden box (401) and the vertical clapboard (405), the experimental tool can be conveniently taken out by opening the transparent movable inserting plate (402), after the first transmission motor (404) is reset, the flatness of the upper end face of the experiment main board (8) is conveniently kept;

(C) the limiting operation frame (306) is lifted, so that the limiting operation frame (306) drives the installation chassis (301) to move upwards on the outer side of the guide column body (303) through the connecting column body (304), the limiting operation frame (306) is convenient to drive the installation chassis (301) to rotate on the inner side of one end of the experiment main board (8) through the connecting column body (304), meanwhile, the rotary winding frame (302) and the winding keeping rod (305) can rotate on the outer side of the connecting column body (304), cables wound on the outer side of the cable winding mechanism (3) can be conveniently taken, and the use is convenient;

(D) a hidden installation box (503) is installed on the inner side of the platform protection shell (101), two ends of a second transmission screw rod (504) are connected with the hidden installation box (503) through bearings, a second transmission motor (505) is started, the second transmission screw rod (504) is connected with the bottom end of a limiting guide sleeve (507) through threads, so that the second transmission motor (505) drives the limit guide sleeve (507) to move transversely through the second transmission screw (504) under the supporting action of the hidden mounting box (503), the upper end of the limit guide sleeve (507) is connected with the bottom end of the connecting transmission ball head (506) through a spring, the limiting guide sleeve (507) slides on the inner side of the connecting sliding plate (502) through the upper end of the connecting transmission ball head (506), so that the connecting sliding plate (502) can drive the movable inclined plate (501) to adjust the angle, and further an experiment is carried out on the upper end face of the movable inclined plate (501);

(E) through carrying out hidden placing to cable roll-up mechanism (3), instrument classification mechanism (4) and ramp adjustment mechanism (5), be convenient for carry out make full use of to the up end of experiment mainboard (8), and the operation of being convenient for go on, install transmission of electricity mechanism (7) in the inboard of platform protective housing (101) for it carries out the supply of electric energy through transmission of electricity mechanism (7) to be convenient for when whole removes through levelling mechanism (6).

9. The use method of the physical experiment operating platform according to claim 8, wherein the physical experiment operating platform comprises the following steps: the utility model discloses a spacing operation frame, including the installation support plate (104), the up end of separating support plate (104) is provided with two buffer blocks, the bottom of installation chassis (301) is connected through the buffer block with separating support plate (104), rotatory roll-up frame (302) is connected through the bearing with connecting cylinder (304), the both ends of connecting cylinder (304) all pass through threaded connection with installation chassis (301) and spacing operation frame (306).

10. The use method of the physical experiment operating platform according to claim 8, wherein the physical experiment operating platform comprises the following steps: the both ends of seat (606) are pressed in the transmission and the bottom of electric putter (607) is passed through the locating pin and is connected, it is fixed that seat (606) are pressed in the transmission and pulley installation frame (604) pass through bolted connection, the inboard at pulley installation frame (604) both ends all is provided with the pulley, the both ends of connecting horizontal pole (603) all pass through threaded connection with seat (606) are pressed in the transmission, it is rigid plastic to connect horizontal pole (603).

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