CN214716718U

CN214716718U - Storage box for physics experiments

Info

Publication number: CN214716718U
Application number: CN202121162190.9U
Authority: CN
Inventors: 陈�峰; 赵宝胜
Original assignee: Hohhot Secondary School
Current assignee: Hohhot Secondary School
Priority date: 2021-05-27
Filing date: 2021-05-27
Publication date: 2021-11-16
Anticipated expiration: 2031-05-27

Abstract

The utility model discloses a storage box for physics experiments. The storage box comprises a box body, two groups of ventilation mechanisms, two groups of coordination cavities arranged at the positions of two corresponding side walls of the box body, a separation structure arranged in the box body, a first protection structure and a second protection structure. Every group ventilation mechanism includes the frame template, runs through fixed mounting grid plate, coating on the frame template active carbon coating on the grid plate and set up four group's rubber stoppers on the frame template. The first protection structure comprises eight groups of damping springs, two groups of sponge base plates and two groups of bearing plates. The second protective structure comprises eight groups of silica gel blocks and four groups of foam plates. The utility model discloses a storage box ventilates through the heat convection exchange, avoids the interior apparatus of incasement to be because of the rusty condition of weing. Can realize the firm placing and buffering of apparatus in the case, prevent that the apparatus from receiving the collision and causing the damage in placing and removing the in-process.

Description

Storage box for physics experiments

Technical Field

The utility model relates to an experimental facilities deposits technical field, concretely relates to storage box for physics experiments.

Background

Physics is a subject for researching general laws and basic structures of substances, is a leading subject of natural science, researches the most basic motion forms and laws of all substances such as universes and basic particles, and is the basis of research of other natural scientific subjects.

The storage box for the existing physics experiments can cause unnecessary property loss due to damage of articles inside the storage box caused by collision in the process of placing or carrying, and has poor ventilation effect during use, so that instruments in the storage box are easy to rust.

SUMMERY OF THE UTILITY MODEL

To prior art's problem, the utility model provides a storage box for physics experiments to when solving current bin and using, lead to its inside article to damage and the incasement apparatus to rust easily because of the collision, cause unnecessary loss of property's problem.

The utility model discloses a following technical scheme realizes:

a storage box for physical experiments comprises a box body and a box cover movably arranged on the box body;

the storage box further comprises:

two groups of ventilation mechanisms which are movably arranged at the positions of two corresponding side walls of the box body and provide convection space inside and outside the storage box;

each group of ventilation mechanisms comprises a frame-shaped plate, a grid plate which is fixedly installed on the frame-shaped plate in a penetrating mode, an active carbon coating which is coated on the grid plate and four groups of rubber plugs which are arranged on the frame-shaped plate;

two groups of coordination cavities which are arranged at the positions of two corresponding side walls of the box body and are matched with the corresponding grid plates, and provide installation space for the grid plates;

the separation structure is arranged in the box body and is used for dividing the storage space of the storage box;

the separating structure comprises a T-shaped plate fixedly arranged on the box body, a first object containing cavity and two groups of second object containing cavities, wherein the first object containing cavity and the two groups of second object containing cavities are formed in the box body;

the first protection structure is arranged in the first object placing cavity and is used for providing anti-collision protection for experimental equipment placed in the first object placing cavity;

the first protection structure comprises eight groups of damping springs, two groups of sponge base plates and two groups of bearing plates; and

the second protection structure is arranged in the second storage cavity and used for providing anti-collision protection for the experimental equipment placed in the second storage cavity;

the second protective structure comprises eight groups of silica gel blocks and four groups of foam plates.

As a further improvement of the above scheme, the storage box further comprises four groups of moving wheels which are back to the box cover and fixed at the position of the lower surface of the box body, and the moving wheels move when the storage box is subjected to thrust to assist the movement of the storage box;

wherein, four groups of the moving wheels are evenly distributed at the periphery.

As a further improvement of the above scheme, four groups of rubber stoppers are uniformly distributed at the periphery of the grid plate; the frame-shaped plate is movably connected with the box body through a rubber plug.

As a further improvement of the above scheme, the grid plate is movably mounted on the box body through the coordination cavity; the T-shaped plate is vertically arranged on the inner wall of the box body.

As a further improvement of the above scheme, the first object placing cavity and the two groups of second object placing cavities are separated by a T-shaped plate;

the first object containing cavity is arranged above the second object containing cavity, and the second object containing cavities are horizontally arranged.

As a further improvement of the above scheme, four groups of the damping springs are symmetrically fixed on the inner walls of two corresponding sides of the box body, and the other four groups of the damping springs are fixedly installed on the T-shaped plate and back to the second storage cavity.

As a further improvement of the above scheme, the sponge base plates are fixedly installed between two adjacent groups of the damping springs and are vertically installed; two sets of sponge backing plates horizontal distribution is in the first inside of putting the thing chamber.

As a further improvement of the above scheme, the bearing plate is fixedly installed between two adjacent groups of the damping springs, and the bearing plate is installed transversely; the sponge backing plate is arranged above the corresponding bearing plate.

As a further improvement of the scheme, four groups of the silica gel blocks facing the ventilation mechanism are fixedly connected with the box body, and the remaining four groups of the silica gel blocks back to the ventilation mechanism are fixedly connected with the T-shaped plate.

As a further improvement of the above scheme, the foam plates are fixedly installed between two adjacent groups of the silica gel blocks, and the four groups of the foam plates are symmetrically distributed in the second storage cavity in pairs.

The utility model provides a pair of storage box for physics experiments has following beneficial effect:

1. a ventilation mechanism consisting of a frame plate, a grid plate, an activated carbon coating and a rubber plug is used for providing a convection space inside and outside the storage box. Be fixed in the grid plate on the frame template and run through the assembly in the lateral wall position department of bin under the location in coordination chamber, the air passes through the grid plate and realizes heat convection exchange, and the grid plate separates the fender to the coordination chamber, cooperates its surface coating's active carbon coating entrapment dust and moisture to keep the degree of dryness of incasement, thereby avoid the rusty condition of apparatus because of weing in the bin.

2. Through damping spring, the first protective structure that sponge backing plate and bearing plate constitute, combine the second protective structure that silica gel piece and cystosepiment constitute, the installation protection of placing the apparatus in the bin is provided, the sponge backing plate by the damping spring installation separates the fender in the both sides of apparatus, the supreme holding power is from down exerted by the bearing plate of damping spring installation on the apparatus to the cooperation, make the apparatus receive both sides and vertical effort when depositing, can stabilize and place, the cystosepiment quantity by the installation of silica gel piece is four groups, distribute in the position all around that corresponds storing space, make the apparatus receive when depositing along four position along the effort in opposite directions, realize stabilizing and place, and cushion through the elastic action with separating the fender effect, prevent that the apparatus is placing and remove the in-process, receive the collision and cause the damage.

To sum up, the utility model discloses a storage box ventilates through the heat convection exchange to but entrapment dust and moisture are in order to keep the degree of dryness of incasement, thereby avoid the rusty condition of apparatus in the storage box because of weing. Can realize the firm placing of apparatus in the case to cushion through the elastic action with separating the fender effect, prevent that the apparatus from placing and removing the in-process, receive the collision and cause the damage.

Drawings

Fig. 1 is the utility model relates to a structural schematic of storage box for physics experiments.

Fig. 2 is a cross-sectional view of fig. 1 according to the present invention.

Fig. 3 is a schematic structural view of the ventilation mechanism of fig. 1 according to the present invention.

Description of the symbols:

1. a box body; 2. a box cover; 3. a moving wheel; 4. a ventilation mechanism; 41. a frame-shaped plate; 42. a grid plate; 43. an activated carbon coating; 44. a rubber plug; 5. a coordination cavity; 6. a partition structure; 61. a T-shaped plate; 62. a first object placing cavity; 63. a second storage cavity; 7. a first guard structure; 71. a damping spring; 72. a sponge backing plate; 73. a bearing plate; 8. a second protective structure; 81. a silica gel block; 82. a foam board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1 to 3, the present embodiment provides a storage box for physical experiments, which is used for providing a placement space for instruments required by physical experiments, and the storage box includes a box body 1, a box cover 2 movably mounted on the box body 1, four sets of movable wheels 3 facing away from the box cover 2 and fixed on a lower surface of the box body 1, two sets of ventilation mechanisms 4 movably mounted on two corresponding side walls of the box body 1, two sets of coordination cavities 5 disposed on two corresponding side walls of the box body 1 and engaged with the corresponding grid plates 42, a partition structure 6 disposed in the box body 1, a first protection structure 7 disposed in the first storage cavity 62, and a second protection structure 8 disposed in the second storage cavity 63.

Box 1 and case lid 2 make up the shell structure of storage box, and the required equipment of experiment is placed in box 1, makes its top of covering and being fixed in the experimental equipment through the closure of case lid 2, provides an independent space, and the convenience is removed the concentration of experimental equipment. The four groups of moving wheels 3 are uniformly distributed at the periphery. The moving wheel 3 moves when the storage box is subjected to thrust, and assists the movement of the storage box.

The ventilation mechanism 4 provides a space for convection inside and outside the storage tank. Every group ventilation mechanism 4 includes frame type board 41, runs through fixed mounting grid plate 42, the coating on the frame type board 41 are in active carbon coating 43 and setting on the grid plate 42 are in four groups of rubber stoppers 44 on the frame type board 41. Four groups of rubber stoppers 44 are evenly distributed around the grid plate 42, and the frame plate 41 is movably connected with the box body 1 through the rubber stoppers 44. The coordination cavity 5 provides an installation space for the grid plate 42. The grid plate 42 is movably arranged on the box body 1 through the coordination cavity 5.

In the present embodiment, the ventilation means 4 constituted by the frame plate 41, the mesh plate 42, the activated carbon coating layer 43 and the rubber stopper 44 provides a space for convection inside and outside the storage box. Be fixed in grid plate 42 on frame type board 41 and run through the assembly in the lateral wall position department of storage box under the location of coordination cavity 5, the air passes through grid plate 42 and realizes heat convection exchange, and grid plate 42 separates the fender to coordination cavity 5, cooperates its surface coating's active carbon coating 43 entrapment dust and moisture to keep the degree of dryness of incasement, thereby avoid the rusty condition of apparatus because of weing in the storage box.

The partition structure 6 is used to divide the storage space of the storage box. The partition structure 6 comprises a T-shaped plate 61 fixedly mounted on the box body 1, a first object placing cavity 62 and two groups of second object placing cavities 63 arranged in the box body 1. The T-shaped plate 61 is vertically arranged on the inner wall of the box body 1, and the first object containing cavity 62 and the two groups of second object containing cavities 63 are separated through the T-shaped plate 61. Wherein, the first thing chamber 62 that puts sets up in the second thing chamber 63's top, two sets of the second thing chamber 63 level setting of putting. The space in the box body 1 is respectively divided into three independent object placing spaces of a first object placing cavity 62 and two groups of second object placing cavities 63 through the T-shaped plates 61, and ordered storage of different physical experimental instruments is achieved.

The first protective structure 7 is used for providing anti-collision protection for the experimental equipment placed in the first object placing cavity 62. The first protection structure 7 comprises eight groups of damping springs 71, two groups of sponge backing plates 72 and two groups of bearing plates 73. Four groups of damping springs 71 are symmetrically fixed on the inner wall positions of two corresponding sides of the box body 1, and the rest four groups of damping springs 71 are fixedly installed on the T-shaped plate 61 and arranged opposite to the second storage cavity 63. The sponge backing plate 72 is fixedly installed between the two adjacent groups of the damping springs 71, the sponge backing plate 72 is vertically installed, and the two groups of the sponge backing plates 72 are horizontally distributed inside the first storage cavity 62. The bearing plates 73 are fixedly arranged between the two adjacent groups of the damping springs 71, the bearing plates 73 are transversely arranged, and the sponge backing plates 72 are arranged above the corresponding bearing plates 73.

The second protective structure 8 is used for providing anti-collision protection for the experimental equipment placed in the second object placing cavity 63. The second protective structure 8 comprises eight groups of silicone blocks 81 and four groups of foam boards 82. The four groups of silica gel blocks 81 facing the ventilation mechanism 4 are fixedly connected with the box body 1, and the remaining four groups of silica gel blocks 81 back to the ventilation mechanism 4 are fixedly connected with the T-shaped plate 61. The foam plates 82 are fixedly arranged between two adjacent groups of the silica gel blocks 81, and the four groups of the foam plates 82 are symmetrically distributed in the second storage cavity 63 in pairs.

In the embodiment, the first protective structure 7 formed by the damping spring 71, the sponge cushion plate 72 and the bearing plate 73 is combined with the second protective structure 8 formed by the silica gel block 81 and the foam plate 82 to provide installation protection for placing instruments in the storage box, the sponge cushion plate 72 installed by the damping spring 71 separates two sides of the instruments, and the bearing plate 73 installed by the damping spring 71 is matched to apply a supporting force from bottom to top on the instruments, so that the instruments receive two-side and vertical acting forces during storage, can be stably placed, four groups of foam plates 82 arranged by the silica gel blocks 81 are distributed at the periphery of the corresponding storage space, so that the apparatus receives the acting force oppositely along four directions when being stored, the stable placement is realized, and the buffer is realized through the elastic action and the blocking action, so that the damage caused by collision in the placing and moving process of the instrument is prevented.

Compared with the existing storage box, the storage box provided by the embodiment has the following advantages: ventilation is performed by heat convection exchange, and dust and moisture can be trapped to maintain dryness in the storage box, thereby preventing a situation in which instruments in the storage box are rusted due to moisture. Can realize the firm placing of apparatus in the case to cushion through the elastic action with separating the fender effect, prevent that the apparatus from placing and removing the in-process, receive the collision and cause the damage.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A storage box for physical experiments comprises a box body (1) and a box cover (2) movably arranged on the box body (1);

characterized in that, the storage box still includes:

two groups of ventilation mechanisms (4) which are movably arranged at the positions of two corresponding side walls of the box body (1) and provide convection space inside and outside the storage box;

each group of ventilation mechanisms (4) comprises a frame-shaped plate (41), a grid plate (42) which is fixedly installed on the frame-shaped plate (41) in a penetrating mode, an active carbon coating (43) coated on the grid plate (42) and four groups of rubber stoppers (44) arranged on the frame-shaped plate (41);

two groups of coordination cavities (5) which are arranged at the positions of two corresponding side walls of the box body (1) and are matched with the corresponding grid plates (42) provide installation space for the grid plates (42);

the partition structure (6) is arranged in the box body (1) and is used for dividing the storage space of the storage box;

the separating structure (6) comprises a T-shaped plate (61) fixedly arranged on the box body (1), a first storage cavity (62) arranged in the box body (1) and two groups of second storage cavities (63);

the first protective structure (7) is arranged in the first object placing cavity (62) and is used for providing anti-collision protection for experimental equipment placed in the first object placing cavity (62);

the first protection structure (7) comprises eight groups of damping springs (71), two groups of sponge base plates (72) and two groups of bearing plates (73); and

the second protective structure (8) is arranged in the second storage cavity (63) and is used for providing anti-collision protection for experimental equipment placed in the second storage cavity (63);

the second protective structure (8) comprises eight groups of silica gel blocks (81) and four groups of foam plates (82).

2. A storage box for physical experiments according to claim 1, further comprising four sets of moving wheels (3) facing away from the cover (2) and fixed at the lower surface of the box body (1), which move when the storage box is subjected to thrust, to assist the movement of the storage box;

wherein, four groups of moving wheels (3) are evenly distributed at the periphery.

3. A storage box for physical experiments according to claim 1, wherein four groups of rubber stoppers (44) are evenly distributed at the peripheral positions of the grid plate (42); the frame-shaped plate (41) is movably connected with the box body (1) through a rubber plug (44).

4. A physical laboratory storage box according to claim 1, characterized in that said grid plate (42) is movably mounted on the box body (1) through a coordination cavity (5); the T-shaped plate (61) is vertically arranged on the inner wall of the box body (1).

5. A storage box for physical experiments according to claim 1, characterized in that the first compartment (62) and the two sets of the second compartments (63) are separated by a T-shaped panel (61);

wherein, first thing chamber (62) of putting sets up the top of putting thing chamber (63) in the second, and two sets of thing chamber (63) horizontal setting is put to the second.

6. A storage box for physical experiments according to claim 1, wherein four groups of the shock absorbing springs (71) are symmetrically fixed at the inner wall positions of two corresponding sides of the box body (1), and the other four groups of the shock absorbing springs (71) are fixedly arranged on the T-shaped plate (61) and are arranged opposite to the second storage cavity (63).

7. A storage box for physical experiments according to claim 1, wherein the sponge cushion plates (72) are fixedly installed between two adjacent groups of the damping springs (71), and the sponge cushion plates (72) are vertically installed; the two groups of sponge backing plates (72) are horizontally distributed in the first storage cavity (62).

8. A storage box for physical experiments according to claim 1, wherein the bearing plate (73) is fixedly installed between two adjacent groups of the damping springs (71), and the bearing plate (73) is installed transversely; the sponge backing plate (72) is arranged above the corresponding bearing plate (73).

9. A storage box for physical experiments according to claim 1, characterized in that four groups of the silica gel blocks (81) facing the ventilation mechanism (4) are fixedly connected with the box body (1), and the remaining four groups of the silica gel blocks (81) facing away from the ventilation mechanism (4) are fixedly connected with the T-shaped plate (61).

10. A storage box for physical experiments according to claim 1, wherein the foam boards (82) are fixedly arranged between two adjacent groups of the silica gel blocks (81), and the four groups of the foam boards (82) are symmetrically distributed in pairs inside the second storage cavity (63).