CN210761965U

CN210761965U - Physical experiment utensil receiver

Info

Publication number: CN210761965U
Application number: CN201921898517.1U
Authority: CN
Inventors: 樊萌萌
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2020-06-16
Anticipated expiration: 2029-11-05

Abstract

The utility model discloses a physics experiment utensil receiver, comprises a box bod, one side at box body top is equipped with the lid through the hinge activity, the left side of the inside bottom of box body is equipped with coupling mechanism, and coupling mechanism's right side is equipped with graduated flask storage mechanism, graduated flask storage mechanism's right side is equipped with gravity piece storage mechanism and floater storage mechanism in proper order, graduated flask storage mechanism's surface is equipped with the cunning and send the mechanism, the border at box body top is equipped with the round arch, the recess with protruding mutual block is seted up at the border of lid bottom. The utility model discloses have and separately place the effect of fixing and the effect that the person of being convenient for to use took the graduated flask to the instrument of used difference in the buoyancy experiment, saved operating time, improved work efficiency, prevent that the instrument from receiving the damage, reduced the experiment cost.

Description

Physical experiment utensil receiver

Technical Field

The utility model relates to a receiver technical field especially relates to a physics experiment utensil receiver.

Background

Physics is a natural science, which is a subject for researching the most general law of motion and basic structure of substances, and focuses on researching substances, energy, space and time, especially the mutual relationship between their respective properties and each other, and is a leading subject of natural science, and the physics researches the most basic motion form and law of all substances, such as universe, basic particles and the like, so that the physics becomes the research foundation of other natural science subjects.

In order to check the theoretical correctness in the learning of physics knowledge, relevant experiments need to be carried out for verification, for example, relevant experiments about buoyancy can use measuring cups, floating balls, gravity blocks and the like in the process of carrying out the buoyancy experiments, and the experimental tools need to be arranged, stored and placed after being used, so that the experimental tools are prevented from falling, being damaged or being lost.

Traditional physics experiment utensil receiver is mostly the inside of directly placing a receiver with the experiment utensil when using, but the collision can be rocked in the box body to the experiment utensil like this, the damage appears even to influence normal experimental work, also can further improve the experiment cost simultaneously.

Therefore, a physical experiment instrument storage box is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a physical experiment appliance storage box.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a physics experiment utensil receiver, includes the box body, one side at box body top is equipped with the lid through the hinge activity, and the lid is equipped with first sponge with the relative face of box body top surface, the left side of the inside bottom of box body is equipped with coupling mechanism, and coupling mechanism's right side is equipped with graduated flask receiving mechanism, graduated flask receiving mechanism's right side is equipped with gravity piece receiving mechanism and floater receiving mechanism in proper order, graduated flask receiving mechanism's surface is equipped with the slip and send the mechanism, the border at box body top is equipped with the round arch, the recess with protruding mutual block is seted up at the border of lid bottom.

Preferably, the top of the box body is movably provided with a carrying handle, and the box body is connected with the front part of the cover body through a fixing buckle.

Preferably, the connecting mechanism comprises a connecting rod arranged between two inner walls on the left side in the box body, and the surface of the connecting rod is movably provided with a mounting plate through a movable sleeve.

Preferably, the measuring cup storage mechanism comprises a storage barrel arranged on the surface of the mounting plate, a sealing cover is arranged at the top of the storage barrel through threads, and abutting rubber is arranged on the bottom surface of the sealing cover.

Preferably, the gravity block storage mechanism comprises a first storage box arranged inside the box body and positioned on the right side of the measuring cup storage mechanism, and a partition plate is arranged inside the first storage box.

Preferably, the floating ball storage mechanism comprises a second storage box arranged on the right side of the gravity block storage mechanism inside the box body, a plurality of groups of embedded grooves are formed in temples of the second storage box, and second sponges are arranged on the outer sides of the embedded grooves.

Preferably, the sliding mechanism comprises a baffle plate arranged inside the storage barrel and an opening arranged on the surface of the storage barrel, and a poking block is arranged in the opening and positioned outside the baffle plate.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through the graduated flask receiving mechanism, gravity piece receiving mechanism and the floater receiving mechanism that set up to reach and separately place fixed effect to the instrument of used difference in the buoyancy experiment, prevent that traditional physics experiment utensil receiver from mostly being the inside of directly placing a receiver with the experimental apparatus when using, prevent that the experimental apparatus can rock the collision in the box body, appear damaging even, thereby influence normal experimental work, prevent further improvement experiment cost.

2. Through the connecting mechanism who sets up with slide and send the mechanism to reach the effect that the user of being convenient for took to the graduated flask, saved operating time, improved work efficiency, prevent that the graduated flask from preventing to cause the user of being in the storage tube to draw with the hand and get inconvenient problem.

Drawings

FIG. 1 is a sectional view of a storage box for physical experiment instruments according to the present invention;

FIG. 2 is a cross-sectional view of the coupling mechanism and the measuring cup receiving mechanism of FIG. 1;

FIG. 3 is a top view of the coupling mechanism and the measuring cup receiving mechanism of FIG. 1;

fig. 4 is a front view of fig. 1.

In the figure: 1. a box body; 2. a hinge; 3. a cover body; 301. a first sponge; 4. a connecting mechanism; 401. a connecting rod; 402. mounting a plate; 403. a movable sleeve; 5. a measuring cup storage mechanism; 501. a storage cylinder; 502. a sealing cover; 503. abutting rubber; 6. a gravity block storage mechanism; 601. a first placing box; 602. a partition plate; 7. a floating ball receiving mechanism; 701. a second placing box; 702. a second sponge; 703. an embedded groove is formed; 8. a sliding mechanism; 801. an opening; 802. a baffle plate; 803. a shifting block; 9. a protrusion; 10. a groove; 11. a carrying handle; 12. and (5) fixing the buckle.

Detailed Description

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

Referring to fig. 1-4, a physical experiment instrument storage box comprises a box body 1, a carrying handle 11 is movably arranged at the top of the box body 1, the carrying handle 11 is convenient for a user to carry the utility model, the box body 1 is connected with the front part of a cover body 3 through a fixing buckle 12, one side of the top of the box body 1 is movably provided with the cover body 3 through a hinge 2, the cover body 3 is used for sealing the box body 1, the surface of the cover body 3 opposite to the top surface of the box body 1 is provided with a first sponge 301, the first sponge 301 is used for abutting against the inner part of the protective box body 1, the left side of the bottom end in the box body 1 is provided with a connecting mechanism 4, the right side of the connecting mechanism 4 is provided with a measuring cup accommodating mechanism 5, the right side of the measuring cup accommodating mechanism 5 is sequentially provided with a gravity block accommodating mechanism 6 and a floating ball accommodating mechanism 7, the surface of the measuring cup accommodating mechanism 5 is provided, the recess 10 with protruding 9 mutual block is seted up to the border of lid 3 bottom, and protruding 9 and recess 10 all are the rectangle during the use, play stability and the leakproofness that increases between box body 1 and the lid 3.

The connecting mechanism 4 comprises a connecting rod 401 arranged between two inner walls on the left side inside the box body 1, a mounting plate 402 is movably arranged on the surface of the connecting rod 401 through a movable sleeve 403, and the mounting plate 402 is turned over on the surface of the connecting rod 401 through the movable sleeve 403 when in use and drives the storage cylinder 501 to turn over.

The measuring cup storage mechanism 5 comprises a storage barrel 501 arranged on the surface of the mounting plate 402, the storage barrel 501 plays a role in storing a measuring cup, a sealing cover 502 is arranged at the top of the storage barrel 501 through threads, the sealing cover 502 plays a role in sealing the storage barrel 501 to prevent the measuring cup from sliding out, abutting rubber 503 is arranged on the bottom surface of the sealing cover 502, and the abutting rubber 503 plays a role in fixing the storage barrel 501.

The gravity block containing mechanism 6 comprises a first containing box 601 arranged inside the box body 1 and located on the right side of the measuring cup containing mechanism 5, a partition plate 602 is arranged inside the first containing box 601, and the partition plate 602 covers the gravity block and abuts against the gravity block together with the first sponge 301.

The floating ball storage mechanism 7 comprises a second storage box 701 arranged on the right side of the gravity block storage mechanism 6 and arranged inside the box body 1, a plurality of groups of embedded grooves 703 are formed in the temporal portion of the second storage box 701, the embedded grooves 703 are different in size, floating balls with different buoyancy forces are prevented conveniently, second sponge 702 is arranged on the outer side of each embedded groove 703, and the second sponge 702 plays a role in protecting the floating balls.

The sliding mechanism 8 comprises a baffle 802 arranged inside the storage barrel 501 and an opening 801 arranged on the surface of the storage barrel 501, the baffle 802 plays a role in blocking the measuring cup, a poking block 803 is arranged in the opening 801 on the outer side of the baffle 802, the opening 801 is convenient for the poking block 803 to move, and the poking block 803 moves in the opening 801 to drive the baffle 802 to lift the measuring cup upwards in the storage barrel 501.

The working principle of the utility model is that when the experimenter uses, the fixing buckle 12 is utilized to open the box body 1 and the cover body 3, then the staff turns over the storage cylinder 501 to stand up, and unscrews the sealing cover 502 from the top of the storage cylinder 501, at the moment, the movable sleeve 403 rotates on the surface of the connecting rod 401, then the experimenter utilizes the poking block 803 to slide the baffle 802 upwards, at the moment, the poking block 803 moves between the openings 801, so that the measuring cup is lifted upwards from the storage cylinder 501 to be exposed, meanwhile, the experimenter takes out the measuring cup from the storage cylinder 501, then the experimenter takes out the gravity block with required weight from the interior of the first placing box 601 according to different conditions, and then takes out the floating ball with required buoyancy for the experiment from the second placing box 701, and then the experimenter can carry out the buoyancy experiment; the experiment finishes the back laboratory technician and wipes the moisture of experiment instrument futilely, then put into the inside of containing cylinder 501 with the graduated flask, and simultaneously and utilize sealed lid 502 to seal containing cylinder 501, place the inside of the first box 601 of placing back of gravity piece again, and cover division board 602 at the top of gravity piece, then put into the inside of different interior caulking grooves 703 with the floater according to the size again, then overturn the lid 3 to the top of box body 1 through hinge 2, make recess 10 and protruding 9 block, reuse fixed buckle 12 with box body 1 and lid 3 fixed hasp together.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims

1. The utility model provides a physics experiment utensil receiver, includes box body (1), its characterized in that, one side at box body (1) top is equipped with lid (3) through hinge (2) activity, and lid (3) and box body (1) top surface relative face be equipped with first sponge (301), the left side of the inside bottom of box body (1) is equipped with coupling mechanism (4), and the right side of coupling mechanism (4) is equipped with graduated flask receiving mechanism (5), the right side of graduated flask receiving mechanism (5) is equipped with gravity piece receiving mechanism (6) and floater receiving mechanism (7) in proper order, the surface of graduated flask receiving mechanism (5) is equipped with smooth mechanism (8) of sending, the border at box body (1) top is equipped with round arch (9), recess (10) with the mutual block of protruding (9) are seted up at the border of lid (3) bottom.

2. The storage box for physical experimental instruments as claimed in claim 1, wherein a handle (11) is movably arranged on the top of the box body (1), and the box body (1) is connected with the front part of the cover body (3) through a fixing buckle (12).

3. The storage box for physical experiment instruments according to claim 1, wherein the connecting mechanism (4) comprises a connecting rod (401) arranged between two inner walls at the left side in the box body (1), and a mounting plate (402) is movably arranged on the surface of the connecting rod (401) through a movable sleeve (403).

4. The storage box for physical experiment instruments according to claim 3, wherein the measuring cup storage mechanism (5) comprises a storage barrel (501) arranged on the surface of the mounting plate (402), the top of the storage barrel (501) is provided with a sealing cover (502) through threads, and the bottom surface of the sealing cover (502) is provided with an abutting rubber (503).

5. The storage box for physical laboratory instruments according to claim 1, wherein the gravity block storage mechanism (6) comprises a first storage box (601) disposed inside the box body (1) on the right side of the measuring cup storage mechanism (5), and a partition plate (602) is disposed inside the first storage box (601).

6. The storage box for physical experiment instruments according to claim 1, wherein the floating ball storage mechanism (7) comprises a second storage box (701) which is arranged inside the box body (1) and is located on the right side of the gravity block storage mechanism (6), a plurality of groups of inner embedding grooves (703) are formed in the temporal part of the second storage box (701), and second sponges (702) are arranged on the outer sides of the inner embedding grooves (703).

7. The storage box for physical laboratory instruments according to claim 4, wherein the sliding mechanism (8) comprises a baffle (802) disposed inside the storage barrel (501) and an opening (801) disposed on the surface of the storage barrel (501), and a toggle block (803) is disposed inside the opening (801) and outside the baffle (802).