CN215753585U - Physical experiment equipment storage device - Google Patents

Abstract

The utility model discloses a physical experiment equipment storage device, and relates to the technical field of equipment storage. The bottom plate comprises a bottom plate, wherein idler wheels are fixedly mounted at four corners of the bottom plate, a first vertical plate and a second vertical plate are fixedly mounted on two sides of the bottom plate respectively, a pushing handle is fixedly mounted on the first vertical plate, a plurality of through grooves are formed in the second vertical plate, an arc-shaped groove is formed in the upper end of the second vertical plate, a third storage box is arranged at the top of the bottom plate, a second storage box is arranged at the top of the third storage box, a first storage box is arranged at the top of the second storage box, an unfolding mechanism is connected among the first storage box, the second storage box and the third storage box, and the unfolding mechanism is matched with a rotating mechanism; the device can be automatically unfolded through the arranged unfolding mechanism and divided into a plurality of storage boxes, so that workers can conveniently store all experimental equipment.

Description

Physical experiment equipment storage device

Technical Field

The utility model relates to the technical field of equipment storage, in particular to a physical experiment equipment storage device.

Background

Under new course's requirement, high school physics experiment becomes a part of more and more important in the teaching, and be a great subject of difficulty, mr has clear understanding in order to let students to various physical phenomena and theorem, often can lead students to utilize some physical equipment to carry out theoretical verification, the required experimental apparatus of experiment is numerous a bit, if do not carry out effectual arrangement and accomodate, can lead to the experimental apparatus to lose, also can cause the collision in handling, the collision can cause the damage of experimental apparatus.

And accomodate at present to experimental facilities and just place all equipment in the box, then deposit, can't classify each equipment and deposit, if need classify and deposit and just need use a plurality of boxes, not only so comparatively troublesome, need carry each box in proper order during the transport moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a physical experiment equipment storage device which is automatically unfolded and divided into a plurality of storage boxes, so that workers can store experiment equipment conveniently.

The purpose of the utility model can be realized by the following technical scheme:

the utility model provides a physics experiment equipment storage device, includes the bottom plate, the equal fixed mounting in bottom plate bottom four corners department has the gyro wheel, bottom plate both sides fixed mounting respectively has first riser and second riser, fixed mounting has the pushing hands on the first riser, it runs through the groove to have seted up a plurality of on the second riser, the arc wall has been seted up to the second riser upper end, the bottom plate top is provided with the third bin, third bin top is provided with the second bin, second bin top is provided with first bin, be connected with deployment mechanism between first bin, second bin and the third bin, deployment mechanism matches there is rotation mechanism.

As a further scheme of the utility model: the unfolding mechanism comprises a driving device, a supporting plate is fixedly mounted at the bottom of the driving device, the supporting plate is fixedly mounted on the side wall of the first vertical plate, a connecting shaft is fixedly connected with the output end of the driving device, the connecting shaft penetrates through the first vertical plate and is rotatably connected with the first vertical plate, a linkage plate is fixedly mounted on the connecting shaft, and one end of the connecting shaft penetrating through the first vertical plate is rotatably connected to the side wall of the second storage box.

As a further scheme of the utility model: the linkage plate is characterized in that through holes are formed in two sides of the linkage plate, connecting columns are connected in the through holes in a sliding mode, and the connecting columns are fixedly installed on the side walls of the first storage box and the third storage box respectively.

As a further scheme of the utility model: first bin, second bin and the equal fixed mounting in third bin bottom both sides have the slider, the spout has all been seted up to second bin, third bin and bottom plate top both sides, the equal sliding connection of slider is in the spout, first bin, second bin, third bin and bottom plate all through slider and the mutual sliding connection of spout, the equal fixed mounting in one side that the spliced pole was kept away from to first bin and third bin has the slide, the equal sliding connection of slide is in passing through the inslot, the equal fixed mounting in second bin both sides has the installation piece, the installation piece is fixed mounting respectively on first riser and second riser.

As a further scheme of the utility model: the rotating mechanism comprises a sliding column, the sliding column is connected in the arc-shaped groove in a sliding mode, a connecting plate is fixedly mounted on the sliding column, and a rotating shaft is fixedly mounted at one end, far away from the sliding column, of the connecting plate.

As a further scheme of the utility model: the pivot both sides are all rotated and are connected with the fixed block, the equal fixed mounting of fixed block is on first bin, fixed mounting has the mounting panel in the pivot, fixed mounting has the apron on the mounting panel.

The utility model has the beneficial effects that: when the device is used, the driving device is opened to drive the connecting shaft to rotate, so that the linkage plate on the connecting shaft rotates, the through holes are formed in the two sides of the linkage plate, and the connecting columns are connected with the through holes in a sliding manner, so that when the linkage plate rotates, the connecting columns are driven to slide in the through holes, and the connecting columns are respectively arranged on the side parts of the first storage box and the third storage box, so that when the connecting columns slide on the linkage plate through the through holes, the first storage box and the third storage box are driven to move, because the first storage box and the third storage box are both provided with the sliding plates which are connected in the through grooves in a sliding manner, when the first storage box and the third storage box move, the first storage box and the second storage box slide on the second vertical plate through the arranged sliding plates and the through grooves, and because the first storage box, the second storage box, the third storage box and the bottom plate are mutually connected in a sliding manner through the sliding plates and the sliding grooves, therefore, when the first storage box and the third storage box slide on the second vertical plate, the second storage box and the third storage box of the first storage box slide and expand mutually, and the device can be automatically expanded through the arranged expansion mechanism and divided into a plurality of storage boxes, so that workers can conveniently store various experimental devices;

the rotating mechanism is matched with the unfolding mechanism, when the first storage box slides on the second vertical plate through the sliding plate and the through groove, the sliding column is driven to slide in the arc-shaped groove, the connecting plate is arranged on the sliding column, and the rotating shaft is arranged on the connecting plate, so that when the sliding column slides in the arc-shaped groove, the rotating shaft is driven to rotate through the arranged connecting plate, and the cover plate is arranged on the rotating shaft, so that when the rotating shaft rotates, the cover plate is driven to rotate.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall expanded structure of the present invention;

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

FIG. 4 is a schematic structural view of a rotating mechanism according to the present invention;

in the figure: 1. a base plate; 2. a first vertical plate; 3. a pushing handle; 4. a second vertical plate; 5. a through groove; 6. an arc-shaped slot; 7. a first storage tank; 8. a second storage tank; 9. a third storage tank; 10. a deployment mechanism; 1001. a drive device; 1002. a support plate; 1003. a connecting shaft; 1004. a linkage plate; 1005. a through hole; 1006. connecting columns; 11. a rotation mechanism; 1101. a traveler; 1102. a connecting plate; 1103. a rotating shaft; 1104. a fixed block; 1105. mounting a plate; 1106. a cover plate; 12. a roller; 13. a slider; 14. a chute; 15. mounting blocks; 16. a slide board.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

as shown in fig. 1-3, a physical experiment equipment storage device comprises a bottom plate 1, rollers 12 are fixedly mounted at four corners of the bottom plate 1, a first vertical plate 2 and a second vertical plate 4 are respectively fixedly mounted at two sides of the bottom plate 1, a push handle 3 is fixedly mounted on the first vertical plate 2, a plurality of through grooves 5 are formed in the second vertical plate 4, an arc-shaped groove 6 is formed in the upper end of the second vertical plate 4, a third storage box 9 is arranged at the top of the bottom plate 1, a second storage box 8 is arranged at the top of the third storage box 9, a first storage box 7 is arranged at the top of the second storage box 8, an expansion mechanism 10 is connected among the first storage box 7, the second storage box 8 and the third storage box 9, and the expansion mechanism 10 is matched with a rotation mechanism 11;

the unfolding mechanism 10 comprises a driving device 1001, a supporting plate 1002 is fixedly mounted at the bottom of the driving device 1001, the supporting plate 1002 is fixedly mounted on the side wall of a first vertical plate 2, a connecting shaft 1003 is fixedly connected to the output end of the driving device 1001, the connecting shaft 1003 penetrates through the first vertical plate 2 and is rotatably connected with the first vertical plate 2, a linkage plate 1004 is fixedly mounted on the connecting shaft 1003, one end of the connecting shaft 1003 penetrating through the first vertical plate 2 is rotatably connected to the side wall of a second storage box 8, and when the driving device 1001 is opened, the driving device 1001 drives the linkage plate 1004 on the connecting shaft 1003 to rotate through the connecting shaft 1003 connected with the output end;

through holes 1005 are formed in both sides of the linkage plate 1004, connecting columns 1006 are connected in the through holes 1005 in a sliding manner, the connecting columns 1006 are fixedly installed on the side walls of the first storage box 7 and the third storage box 9 respectively, and when the linkage plate 1004 rotates, the connecting columns 1006 are driven to slide on the linkage plate 1004 through the arranged through holes 1005, so that the connecting columns 1006 horizontally move;

the bottom two sides of the first storage box 7, the bottom two sides of the second storage box 8 and the third storage box 9 are fixedly provided with sliders 13, the top two sides of the second storage box 8, the top two sides of the third storage box 9 and the bottom plate 1 are provided with chutes 14, the sliders 13 are slidably connected in the chutes 14, the first storage box 7, the second storage box 8, the third storage box 9 and the bottom plate 1 are slidably connected with each other through the sliders 13 and the chutes 14, one sides of the first storage box 7 and the third storage box 9 far away from the connecting column 1006 are fixedly provided with sliders 16, the sliders 16 are slidably connected in the penetrating grooves 5, the two sides of the second storage box 8 are fixedly provided with mounting blocks 15, the mounting blocks 15 are fixedly mounted on the first vertical plate 2 and the second vertical plate 4 respectively, when the connecting column 1006 moves horizontally, the first storage box 7 and the third storage box 9 are driven to slide on the second vertical plate 4 through the arranged sliders 16 and the penetrating grooves 5, the first storage box 7 and the second storage box 9 are driven through the set sliders 13 and the chutes 14 to enable the first storage box 7, the second storage box 9 to slide, Second bin 8, third bin 9 and bottom plate 1 mutual sliding connection to can make first bin 7, second bin 8 and third bin 9 expand completely, the staff of being convenient for places experimental apparatus classification in each bin.

The working principle of the utility model is as follows: when the device is used, the driving device 1001 is opened to drive the connecting shaft 1003 to rotate, the linkage plate 1004 on the connecting shaft 1003 is enabled to rotate, through holes 1005 are formed in two sides of the linkage plate 1004, connecting columns 1006 are connected in the through holes 1005 in a sliding mode, when the linkage plate 1004 rotates, the connecting columns 1006 are driven to slide in the through holes 1005, the connecting columns 1006 are respectively installed on the side portions of the first storage box 7 and the third storage box 9, when the connecting columns 1006 slide on the linkage plate 1004 through the through holes 1005, the first storage box 7 and the third storage box 9 are driven to move, sliding plates 16 are installed on the first storage box 7 and the third storage box 9, the sliding plates 16 are connected in the through grooves 5 in a sliding mode, when the first storage box 7 and the third storage box 9 move, the sliding plates 16 and the through grooves 5 slide on the second vertical plates 4, and because the first storage box 7, The second storage box 8, the third storage box 9 and the bottom plate 1 are mutually connected in a sliding manner through the sliding blocks 13 and the sliding grooves 14, so that when the first storage box 7 and the third storage box 9 slide on the second vertical plate 4, the first storage box 7, the second storage box 8 and the third storage box 9 are mutually unfolded in a sliding manner.

Example 2:

as shown in fig. 4, the rotating mechanism 11 includes a sliding column 1101, the sliding column 1101 is slidably connected in the arc-shaped groove 6, a connecting plate 1102 is fixedly mounted on the sliding column 1101, a rotating shaft 1103 is fixedly mounted at one end of the connecting plate 1102 far away from the sliding column 1101, fixing blocks 1104 are rotatably connected to both sides of the rotating shaft 1103, the fixing blocks 1104 are fixedly mounted on the first storage box 7, a mounting plate 1105 is fixedly mounted on the rotating shaft 1103, and a cover plate 1106 is fixedly mounted on the mounting plate 1105.

The rotating mechanism 11 and the unfolding mechanism 10 are matched, when the first storage box 7 slides on the second vertical plate 4 through the sliding plate 16 and the through groove 5, the sliding column 1101 is driven to slide in the arc-shaped groove 6, the connecting plate 1102 is installed on the sliding column 1101, and the rotating shaft 1103 is installed on the connecting plate 1102, so that when the sliding column 1101 slides in the arc-shaped groove 6, the rotating shaft 1103 is driven to rotate through the arranged connecting plate 1102, and the cover plate 1106 is driven to rotate when the rotating shaft 1103 rotates due to the fact that the cover plate 1106 is installed on the rotating shaft 1103.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The physical experiment equipment storage device is characterized by comprising a bottom plate (1), wherein idler wheels (12) are fixedly mounted at four corners of the bottom plate (1), a first vertical plate (2) and a second vertical plate (4) are respectively fixedly mounted at two sides of the bottom plate (1), a pushing handle (3) is fixedly mounted on the first vertical plate (2), a plurality of through grooves (5) are formed in the second vertical plate (4), an arc-shaped groove (6) is formed in the upper end of the second vertical plate (4), a third storage box (9) is arranged at the top of the bottom plate (1), a second storage box (8) is arranged at the top of the third storage box (9), a first storage box (7) is arranged at the top of the second storage box (8), and an expansion mechanism (10) is connected among the first storage box (7), the second storage box (8) and the third storage box (9), the unfolding mechanism (10) is matched with a rotating mechanism (11).

2. The physical experiment equipment storage device of claim 1, wherein the unfolding mechanism (10) comprises a driving device (1001), a supporting plate (1002) is fixedly mounted at the bottom of the driving device (1001), the supporting plate (1002) is fixedly mounted on the side wall of a first vertical plate (2), a connecting shaft (1003) is fixedly connected to the output end of the driving device (1001), the connecting shaft (1003) penetrates through the first vertical plate (2) and is rotatably connected with the first vertical plate (2), a linkage plate (1004) is fixedly mounted on the connecting shaft (1003), and one end, penetrating through the first vertical plate (2), of the connecting shaft (1003) is rotatably connected to the side wall of a second storage box (8).

3. The physical experiment equipment containing device according to claim 2, wherein through holes (1005) are formed in both sides of the linkage plate (1004), connecting columns (1006) are connected in the through holes (1005) in a sliding manner, and the connecting columns (1006) are fixedly installed on the side walls of the first storage box (7) and the third storage box (9) respectively.

4. The physical experiment equipment containing device according to claim 1, wherein the first storage box (7), the second storage box (8) and the third storage box (9) are fixedly provided with slide blocks (13) on two sides of the bottom, the second storage box (8), the third storage box (9) and the bottom plate (1) are provided with slide grooves (14) on two sides of the top, the slide blocks (13) are slidably connected in the slide grooves (14), the first storage box (7), the second storage box (8), the third storage box (9) and the bottom plate (1) are slidably connected with each other through the slide blocks (13) and the slide grooves (14), slide plates (16) are fixedly arranged on one sides of the first storage box (7) and the third storage box (9) far away from the connecting column (1006), the slide plates (16) are slidably connected in the through groove (5), and mounting blocks (15) are fixedly arranged on two sides of the second storage box (8), the mounting blocks (15) are respectively and fixedly mounted on the first vertical plate (2) and the second vertical plate (4).

5. The physical experiment equipment containing device according to claim 1, wherein the rotating mechanism (11) comprises a sliding column (1101), the sliding column (1101) is slidably connected in the arc-shaped groove (6), a connecting plate (1102) is fixedly installed on the sliding column (1101), and a rotating shaft (1103) is fixedly installed at one end, far away from the sliding column (1101), of the connecting plate (1102).

6. The physical experiment equipment containing device of claim 5, wherein both sides of the rotating shaft (1103) are rotatably connected with fixing blocks (1104), the fixing blocks (1104) are fixedly installed on the first storage box (7), the rotating shaft (1103) is fixedly installed with an installation plate (1105), and the installation plate (1105) is fixedly installed with a cover plate (1106).

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