CN205910918U - High school physics gravity experiment analogue means - Google Patents

Abstract

The utility model discloses a high school physics gravity experiment analogue means, the on -line screen storage device comprises a base, the equal fixed mounting in upper surface both sides of base has a dead lever, and the movable rod has been cup jointed on the upper portion of dead lever, the upper portion outside surface of dead lever is equipped with fastening bolt, the upper end fixed connection crossbeam of movable rod, the lower surface mounting of crossbeam have a servo motor, and servo motor's pivot front end is connected with the spooler, the middle part upper surface of base is equipped with the screwed pipe, and the upper end of screwed pipe is equipped with the laboratory bench, connecting rod connection pressure sensor is passed through to the inside of screwed pipe, a photoelectric sensor and the 2nd photoelectric sensor are installed respectively to the inboard of dead lever and movable rod, servo motor, pressure sensor, a photoelectric sensor and the 2nd photoelectric sensor divide equally do not electric link bit in the controlling means on crossbeam upper portion. This high school physics gravity experiment analogue means function is various, and portable can satisfy the user demand of high school physics experiment teaching.

Description

A kind of high school physicses gravity experimental simulation device

Technical field

This utility model is related to physics facility technical field, specially a kind of high school physicses gravity experimental simulation dress Put.

Background technology

Because physics subject is comparatively more complicated, thus Physical Education Teacher teaching during often using experiment Analog, for the student being just beginning school, gravity is core curriculum, it is therefore necessary to by gravity experimental simulation device Lai Strengthening teaching efficiency, but physical gravity experimental simulation device single function of the prior art is it is impossible to clearly comprehensively show The presentation process of gravity, and portability is bad, can not meet the use demand of teaching of senior high school.

Utility model content

The purpose of this utility model is to provide a kind of high school physicses gravity experimental simulation device, to solve above-mentioned background skill The problem proposing in art.

For achieving the above object, this utility model provides a kind of following technical scheme: high school physicses gravity experimental simulation dress Put, including base, the upper surface both sides of described base are all installed with fix bar, and the upper socket of fix bar has motion bar, The upper outside surface of described fix bar is provided with fastening bolt, and the upper end of described motion bar is fixedly connected crossbeam, the following table of crossbeam Face is provided with servomotor, and the rotating shaft front end of servomotor is connected with bobbin winoler, and described bobbin winoler connects gravity by connecting rope Ball, the middle part upper surface of described base is provided with corrugated tubing, and the upper end of corrugated tubing is provided with laboratory table, and the inside of described corrugated tubing is passed through Connecting rod connects pressure transducer, and the inner side of described fix bar and motion bar is separately installed with the first photoelectric sensor and the second light Electric transducer, described servomotor, pressure transducer, the first photoelectric sensor and the second photoelectric sensor respectively electrically connect position In the control device on crossbeam top, described control device electrical connection is located at the accumulator of base upper surface.

Preferably, described control device includes lifting button, mcu main control unit and display, and lifting button electrical connection is watched Take motor, mcu main control unit is electrically connected lifting button, display, pressure transducer, the first photoelectric sensor and the second light Electric transducer.

Preferably, the lower inside of described base leaves groove, and the middle part of groove is provided with sucker.

Preferably, the front and back end surface lower portions both sides of described base are equipped with rotary axis groove, are flexibly connected handle in rotary axis groove.

Preferably, the front and back end surface middle part of described base is equipped with the buckle matching with handle.

Compared with prior art, the beneficial effects of the utility model are: this high school physicses gravity experimental simulation device passes through Fix bar and motion bar coordinate fastening bolt can adjust the height of whole device, expand the altitude range of experiment, fix bar Set with the first photoelectric sensor being provided with inside motion bar and the second photoelectric sensor cooperation pressure transducer and control device Some mcu main control units can calculate speed and the weight of gravitation ball, high degree of automation, the sucker energy that base bottom is provided with Make this device when using stability more preferably, the handle that chassis outer side is provided with strengthens the portability of this device, generally speaking, this Utility model is vdiverse in function, is easy to carry, and can meet the use demand of physics experiments of high school teaching.

Brief description

Fig. 1 is this utility model structural representation；

Fig. 2 is the structural representation of this utility model base；

Fig. 3 is the enlarged drawing at a in this utility model Fig. 1.

In figure: 1 base, 11 grooves, 12 suckers, 13 rotary axis grooves, 14 handles, 15 buckles, 2 fix bars, 21 fastening bolts, 3 Motion bar, 4 crossbeams, 5 servomotors, 51 bobbin winolers, 52 gravitation balls, 6 corrugated tubings, 61 cabinet with working tops, 62 pressure transducers, 7 first Photoelectric sensor, 8 second photoelectric sensors, 9 control devices, 10 accumulator.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work The every other embodiment being obtained, broadly falls into the scope of this utility model protection.

Refer to Fig. 1-3, this utility model provides a kind of a kind of technical scheme: high school physicses gravity experimental simulation device, Including base 1, the upper surface both sides of base 1 are all installed with fix bar 2, and the upper socket of fix bar 2 has motion bar 3, Gu The upper outside surface of fixed pole 2 is provided with fastening bolt 21, adjusts fastening bolt 21 and can adjust the flexible of motion bar 3, thus can To adjust the height of whole device, the upper end of motion bar 3 is fixedly connected crossbeam 4, and the lower surface of crossbeam 4 is provided with servomotor 5, The rotating shaft front end of servomotor 5 is connected with bobbin winoler 51, and bobbin winoler 51 connects gravitation ball 52, the middle part of base 1 by connecting rope Upper surface is provided with corrugated tubing 6, and corrugated tubing 6 has certain buffer capacity, and the upper end of corrugated tubing 6 is provided with laboratory table 61, corrugated tubing 6 Inside by connecting rod connect pressure transducer 62, pressure transducer 62 coordinate control device 9 in mcu main control unit permissible Calculate the weight of gravitation ball 52, the inner side of fix bar 2 and motion bar 3 is separately installed with the first photoelectric sensor 7 and the second light Electric transducer 8, the first photoelectric sensor 7 and the second photoelectric sensor 8 coordinate the mcu main control unit in control device 9 can count Calculate the time that gravitation ball 52 passes through, and then speed can be calculated, the presentation of information calculating can be gone out by display Come, servomotor 5, pressure transducer 62, the first photoelectric sensor 7 and the second photoelectric sensor 8 respectively electrically connect and be located at horizontal stroke The control device 9 on beam 4 top, control device 9 electrical connection is located at the accumulator 10 of base 1 upper surface, and control device 9 includes lifting Button, mcu main control unit and display, lifting button electrically connect servomotor 5, mcu main control unit be electrically connected lifting by Button, display, pressure transducer 62, the first photoelectric sensor 7 and the second photoelectric sensor 8, the lower inside of base 1 leaves recessed Groove 11, the middle part of groove 11 is provided with sucker 12, and sucker 12 can be effectively ensured stability during this device busy, base 1 Front and back end surface lower portions both sides are equipped with rotary axis groove 13, are flexibly connected handle 14, in end surfaces before and after base 1 in rotary axis groove 13 Portion is equipped with the buckle 15 matching with handle 14, improves the portability of this device using handle 14, when not using handle 14 It can be stuck in buckle 15, very convenient to use.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with multiple changes in the case of without departing from principle of the present utility model and spirit, repair Change, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of high school physicses gravity experimental simulation device, including base (1) it is characterised in that: the upper surface of described base (1) Both sides are all installed with fix bar (2), and the upper socket of fix bar (2) has motion bar (3), the top of described fix bar (2) Outer surface is provided with fastening bolt (21), and the upper end of described motion bar (3) is fixedly connected crossbeam (4), the lower surface peace of crossbeam (4) Equipped with servomotor (5), the rotating shaft front end of servomotor (5) is connected with bobbin winoler (51), and described bobbin winoler (51) passes through to connect Rope connects gravitation ball (52), and the middle part upper surface of described base (1) is provided with corrugated tubing (6), and the upper end of corrugated tubing (6) is provided with experiment Platform (61), the inside of described corrugated tubing (6) connects pressure transducer (62), described fix bar (2) and motion bar by connecting rod (3) inner side is separately installed with the first photoelectric sensor (7) and the second photoelectric sensor (8), described servomotor (5), pressure Sensor (62), the first photoelectric sensor (7) and the second photoelectric sensor (8) respectively electrically connect and are located at crossbeam (4) top Control device (9), described control device (9) electrical connection is located at the accumulator (10) of base (1) upper surface.

2. a kind of high school physicses gravity experimental simulation device according to claim 1 it is characterised in that: described control device (9) lifting button, mcu main control unit and display, lifting button electrical connection servomotor (5) are included, mcu main control unit is respectively Electrical connection lifting button, display, pressure transducer (62), the first photoelectric sensor (7) and the second photoelectric sensor (8).

3. a kind of high school physicses gravity experimental simulation device according to claim 1 it is characterised in that: described base (1) Lower inside leave groove (11), the middle part of groove (11) is provided with sucker (12).

4. a kind of high school physicses gravity experimental simulation device according to claim 1 it is characterised in that: described base (1) Front and back end surface lower portions both sides be equipped with rotary axis groove (13), be flexibly connected handle (14) in rotary axis groove (13).

5. a kind of high school physicses gravity experimental simulation device according to claim 1 or 4 it is characterised in that: described base (1) front and back end surface middle part is equipped with the buckle (15) matching with handle (14).