CN211051529U - Glass instrument storage device based on analytical chemistry experiment - Google Patents

Abstract

The utility model discloses a based on analytical chemistry experiment glass instrument storage device, including the box, the inside of box is provided with the movable plate, and the upside fixed mounting of movable plate has damping device, and damping device's upside fixed mounting has the support, and the fixed surface of support installs and accomodates the cabinet, and the inside of accomodating the cabinet is provided with the drawer, and the fixed surface of drawer installs the first in command, and the upside of support is provided with first containing box. The utility model discloses when the device when the in-process production that uses rocks, the support transmits external force to the second backup pad, the second backup pad moves down, the second backup pad passes through the support column and drives the slide and move down, the slide extrudees the second spring, the second backup pad makes the fifth down tube rotate, the fifth down tube slides in the second spout through the second slider, and then make the first spring of fifth down tube pulling, elastic deformation takes place for first spring and second spring, thereby improve the stability of containing box, reduce the analytical chemistry experiment glass instrument and damage.

Description

Glass instrument storage device based on analytical chemistry experiment

Technical Field

The utility model relates to a chemistry apparatus technical field specifically is a glass instrument storage device based on analytical chemistry experiments.

Background

Analytical chemistry is a science of analytical methods and theories for studying chemical information about the composition, content, structure and morphology of a substance, and is an important branch of chemistry to identify which components are contained in a substance and from which components the substance is composed, to determine the relative content of the various components, and to study the molecular structure or crystal of the substance.

Multiple glassware can be used in the analytical chemistry experiment, like beaker, test tube, glass stick etc. because glassware is more, need accomodate the arrangement, because glassware belongs to fragile article, storage device stability is not enough, just leads to the fact glassware to damage very easily.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a based on analytical chemistry experiment glass instrument storage device, it is good to possess storage device stability, is difficult to cause the advantage of the damage of glass instrument, has solved storage device stability not enough, just causes the problem of glass instrument damage very easily.

In order to achieve the above object, the utility model provides a following technical scheme: a glass instrument containing device based on analytical chemistry experiments comprises a box body, wherein a movable plate is arranged inside the box body, a damping device is fixedly arranged on the upper side of the movable plate, a support is fixedly arranged on the upper side of the damping device, a containing cabinet is fixedly arranged on the surface of the support, a drawer is arranged inside the containing cabinet, a first handle is fixedly arranged on the surface of the drawer, a first containing box is arranged on the upper side of the support, a second containing box is arranged on the upper side of the first containing box, a first inclined rod is hinged to the side wall of the first containing box, the other end of the first inclined rod is hinged to the side wall of the support, a second inclined rod is hinged to the side wall of the support, the other end of the second inclined rod is hinged to the second containing box, the middle of the second inclined rod is hinged to the side wall of the first containing box, and a third inclined rod is hinged to the side wall of the second containing box, the other end of third down tube is articulated mutually with the lateral wall of first containing box, the inside fixed mounting of second containing box has test tube holder, the upside of box articulates there is the case lid, the lateral wall fixed mounting of case lid has the second handle, the bottom fixed mounting of box has the universal wheel.

Preferably, a first fixing plate is arranged inside the box body, a second fixing plate is fixedly connected to the surface of the first fixing plate, a motor is fixedly mounted at the bottom of the box body, a first bevel gear is fixedly connected to the output end of the motor, a second bevel gear is meshed to the surface of the first bevel gear, a threaded rod is fixedly connected to one side of the second bevel gear and rotatably connected with the second fixing plate through a bearing, a first sliding groove is formed in the inner wall of the box body, a moving block is connected to the surface of the threaded rod through threads, a fourth inclined rod is hinged to the inside of the moving block, the other end of the fourth inclined rod is hinged to the bottom of the moving plate, first sliding blocks are fixedly mounted on two sides of the moving plate, and the first sliding blocks are slidably connected with the first sliding groove.

Preferably, the inside of support has been seted up logical groove, the inside sliding connection who leads to the groove has the traveller, the one end of traveller articulates there is the gag lever post, the other end and the second down tube of gag lever post are articulated mutually.

Preferably, damping device includes first backup pad and second backup pad, the second spout has been seted up on the surface of first backup pad, the bottom of second backup pad articulates there is the fifth down tube, the other end of fifth down tube articulates there is the second slider, second slider and second spout sliding connection, fixed mounting has first spring between two fifth down tubes.

Preferably, the fixed surface of first backup pad is connected with the sleeve, telescopic inside is provided with the second spring, the upside of second spring is provided with the slide, one side fixed mounting of slide has the support column, the other end of support column and the bottom fixed connection of second backup pad.

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

1. the utility model discloses when the device when the in-process production that uses rocks, the support transmits external force to the second backup pad, the second backup pad moves down, the second backup pad passes through the support column and drives the slide and move down, the slide extrudees the second spring, the second backup pad makes the fifth down tube rotate, the fifth down tube slides in the second spout through the second slider, and then make the first spring of fifth down tube pulling, elastic deformation takes place for first spring and second spring, thereby improve the stability of containing box, reduce the analytical chemistry experiment glass instrument and damage.

2. The utility model discloses a motor drives first bevel gear and rotates, first bevel gear drives its surface engagement's second bevel gear and rotates, second bevel gear drives the threaded rod and rotates, the threaded rod drives its surface threaded connection's removal piece and removes, the movable block drives its inside articulated fourth down tube and removes, the fourth down tube promotes movable plate rebound, and then realized first containing box, second containing box and the lift of accomodating the cabinet, made things convenient for taking of glass instrument in the experiment, the time is reduced, the efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the cross section of the present invention;

fig. 3 is a schematic structural diagram of the inside of the damping device of the present invention.

In the figure: the test tube rack comprises a box body 1, a moving plate 2, a support 3, a storage cabinet 4, a drawer 5, a first handle 6, a first storage box 7, a second storage box 8, a support column 9, a first inclined rod 10, a second inclined rod 11, a test tube support 13, a box cover 14, a second handle 15, a motor 16, a first fixing plate 17, a first bevel gear 18, a second bevel gear 19, a threaded rod 20, a second fixing plate 21, a moving block 22, a fourth inclined rod 23, a first sliding chute 24, a first sliding block 25, a through groove 26, a sliding column 27, a limiting rod 28, a universal wheel 29, a first support plate 30, a second support plate 31, a second sliding chute 32, a second sliding block 33, a fifth inclined rod 34, a first spring 35, a sleeve 36, a second spring 37 and a sliding plate 38.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, an analytical chemistry experiment glass instrument-based storage device comprises a box body 1, a movable plate 2 is arranged inside the box body 1, a damping device is fixedly mounted on the upper side of the movable plate 2, a support 3 is fixedly mounted on the upper side of the damping device, a storage cabinet 4 is fixedly mounted on the surface of the support 3, a drawer 5 is arranged inside the storage cabinet 4, a first handle 6 is fixedly mounted on the surface of the drawer 5, a first storage box 7 is arranged on the upper side of the support 3, a second storage box 8 is arranged on the upper side of the first storage box 7, a first inclined rod 10 is hinged on the side wall of the first storage box 7, the other end of the first inclined rod 10 is hinged with the side wall of the support 3, a second inclined rod 11 is hinged on the side wall of the support 3, the other end of the second inclined rod 11 is hinged with the second storage box 8, the middle part of the second inclined rod 11 is hinged with the, the lateral wall of second containing box 8 articulates there is third down tube 12, the other end of third down tube 12 is articulated mutually with the lateral wall of first containing box 7, the inside fixed mounting of second containing box 8 has test tube stand 13, the upside of box 1 articulates there is case lid 14, the lateral wall fixed mounting of case lid 14 has second handle 15, the bottom fixed mounting of box 1 has universal wheel 29, when the containing box rises, pulling second containing box 8, second containing box 8 drives its lateral wall articulated third down tube 12 and second down tube 11 and rotates, and then drive its second containing box 8 and remove, second down tube 11 drives its first containing box 7 to remove simultaneously, first containing box 7 drives its lateral wall articulated first down tube 10 to rotate, and then realized first containing box 7 and second containing box 8 staggered arrangement, conveniently in the experiment to the taking of glass instrument.

Referring to fig. 2, a first fixing plate 17 is disposed inside a case 1, a second fixing plate 21 is fixedly connected to a surface of the first fixing plate 17, a motor 16 is fixedly mounted at a bottom of the case 1, a first bevel gear 18 is fixedly connected to an output end of the motor 16, a second bevel gear 19 is engaged with a surface of the first bevel gear 18, a threaded rod 20 is fixedly connected to one side of the second bevel gear 19, the threaded rod 20 is rotatably connected to the second fixing plate 21 through a bearing, a first sliding groove 24 is formed in an inner wall of the case 1, a moving block 22 is connected to a surface thread of the threaded rod 20, a fourth inclined rod 23 is hinged inside the moving block 22, the other end of the fourth inclined rod 23 is hinged to a bottom of the moving plate 2, first sliding blocks 25 are fixedly mounted on two sides of the moving plate 2, the first sliding blocks 25 are slidably connected to the first sliding groove 24, the motor 16 drives the first bevel gear 18 to rotate, second bevel gear 19 drives threaded rod 20 and rotates, and threaded rod 20 drives its surperficial threaded connection's movable block 22 and removes, and movable block 22 drives its inside articulated fourth down tube 23 and removes, and fourth down tube 23 promotes movable plate 2 rebound, and then has realized the lift of first containing box 7, second containing box 8 and containing cabinet 4, has made things convenient for taking of glass instrument in the experiment, has reduced the time, has improved efficiency.

Referring to fig. 2, a through groove 26 is formed in the support 3, a sliding column 27 is slidably connected to the through groove 26, one end of the sliding column 27 is hinged to a limiting rod 28, the other end of the limiting rod 28 is hinged to the second diagonal rod 11, when the second diagonal rod 11 rotates, the second diagonal rod 11 drives the limiting rod 28 to rotate, the limiting rod 28 drives the sliding column 27 to slidably connect in the through groove 26, so that the limiting of the second diagonal rod 11 is realized, and the storage box is stable.

Referring to fig. 3, the damping device includes a first support plate 30 and a second support plate 31, a second sliding slot 32 is formed in the surface of the first support plate 30, a fifth diagonal rod 34 is hinged to the bottom of the second support plate 31, a second sliding block 33 is hinged to the other end of the fifth diagonal rod 34, the second sliding block 33 is slidably connected to the second sliding slot 32, a first spring 35 is fixedly installed between the two fifth diagonal rods 34, a sleeve 36 is fixedly connected to the surface of the first support plate 30, a second spring 37 is disposed inside the sleeve 36, a sliding plate 38 is disposed on the upper side of the second spring 37, a support pillar 9 is fixedly installed on one side of the sliding plate 38, the other end of the support pillar 9 is fixedly connected to the bottom of the second support plate 31, when the device shakes during use, the support 3 transmits an external force to the second support plate 31, the second support plate 31 moves downward, the second support plate 31 drives the sliding plate 38 to move downward through the support pillar 39, slide 38 extrudees second spring 37, and second backup pad 31 drives fifth down tube 34 and rotates, and fifth down tube 34 slides in second spout 32 through second slider 33, and then makes first spring 35 of fifth down tube 34 pulling, and elastic deformation takes place for first spring 35 and second spring 37 to improve the stability of containing box, reduce the analytical chemistry experiment glass instrument and damage.

The working principle is as follows: when the analytical chemistry experiment glass instrument containing device works, the box cover 14 is opened through the second handle 15, the motor 16 drives the first bevel gear 18 to rotate, the first bevel gear 18 drives the second bevel gear 19 meshed with the surface of the first bevel gear to rotate, the second bevel gear 19 drives the threaded rod 20 to rotate, the threaded rod 20 drives the movable block 22 in threaded connection with the surface of the threaded rod to move, the movable block 22 drives the fourth inclined rod 23 hinged to the inner part of the movable block to move, the fourth inclined rod 23 pushes the movable plate 2 to move upwards, so that the first containing box 7, the second containing box 8 and the containing cabinet 4 are lifted, the second containing box 8 is pulled, the second containing box 8 drives the third inclined rod 12 and the second inclined rod 11 hinged to the side walls of the second containing box 8 to rotate, the second containing box 8 is driven to move, meanwhile, the second inclined rod 11 drives the first containing box 7 to move, and the first containing box 7 drives the first inclined rod 10 hinged to rotate, second down tube 11 drives gag lever post 28 and rotates, and gag lever post 28 drives traveller 27 and leads to groove 26 sliding connection, and then has realized spacing to second down tube 11, and then has realized first containing box 7 and second containing box 8 staggered arrangement, conveniently in the experiment to taking of glass instrument.

All the electric equipment in the scheme supplies power through the external power supply.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a glass instrument storage device based on analytical chemistry experiments, includes box (1), its characterized in that: the movable plate type refrigerator is characterized in that a movable plate (2) is arranged in the refrigerator body (1), a damping device is fixedly arranged on the upper side of the movable plate (2), a support (3) is fixedly arranged on the upper side of the damping device, a storage cabinet (4) is fixedly arranged on the surface of the support (3), a drawer (5) is arranged in the storage cabinet (4), a first handle (6) is fixedly arranged on the surface of the drawer (5), a first storage box (7) is arranged on the upper side of the support (3), a second storage box (8) is arranged on the upper side of the first storage box (7), a first inclined rod (10) is hinged to the side wall of the first storage box (7), the other end of the first inclined rod (10) is hinged to the side wall of the support (3), a second inclined rod (11) is hinged to the side wall of the support (3), and the other end of the second inclined rod (11) is hinged to the second storage box (8), the middle part of second down tube (11) is articulated mutually with the lateral wall of first containing box (7), the lateral wall of second containing box (8) articulates there is third down tube (12), the other end of third down tube (12) is articulated mutually with the lateral wall of first containing box (7), the inside fixed mounting of second containing box (8) has test tube support (13), the upside of box (1) articulates there is case lid (14), the lateral wall fixed mounting of case lid (14) has second handle (15), the bottom fixed mounting of box (1) has universal wheel (29).

2. The analytical chemistry experiment based glass instrument containing device of claim 1, wherein: a first fixing plate (17) is arranged inside the box body (1), a second fixing plate (21) is fixedly connected to the surface of the first fixing plate (17), a motor (16) is fixedly mounted at the bottom of the box body (1), a first bevel gear (18) is fixedly connected to the output end of the motor (16), a second bevel gear (19) is meshed with the surface of the first bevel gear (18), a threaded rod (20) is fixedly connected to one side of the second bevel gear (19), the threaded rod (20) is rotatably connected with the second fixing plate (21) through a bearing, a first sliding chute (24) is formed in the inner wall of the box body (1), a moving block (22) is connected to the surface of the threaded rod (20) in a threaded manner, a fourth inclined rod (23) is hinged inside the moving block (22), and the other end of the fourth inclined rod (23) is hinged to the bottom of the moving block (2), the two sides of the moving plate (2) are fixedly provided with first sliding blocks (25), and the first sliding blocks (25) are connected with the first sliding grooves (24) in a sliding mode.

3. The analytical chemistry experiment based glass instrument containing device of claim 1, wherein: a through groove (26) is formed in the support (3), a sliding column (27) is connected to the inside of the through groove (26) in a sliding mode, a limiting rod (28) is hinged to one end of the sliding column (27), and the other end of the limiting rod (28) is hinged to the second inclined rod (11).

4. The analytical chemistry experiment based glass instrument containing device of claim 1, wherein: damping device includes first backup pad (30) and second backup pad (31), second spout (32) have been seted up on the surface of first backup pad (30), the bottom of second backup pad (31) articulates there is fifth down tube (34), the other end of fifth down tube (34) articulates there is second slider (33), second slider (33) and second spout (32) sliding connection, fixed mounting has first spring (35) between two fifth down tubes (34).

5. The analytical chemistry experiment based glass instrument containing device of claim 4, wherein: the fixed surface of first backup pad (30) is connected with sleeve (36), the inside of sleeve (36) is provided with second spring (37), the upside of second spring (37) is provided with slide (38), one side fixed mounting of slide (38) has support column (9), the other end of support column (9) and the bottom fixed connection of second backup pad (31).

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