CN217017844U - Inner wall cleaning rack for experimental container - Google Patents

Abstract

The utility model discloses an inner wall cleaning rack for an experimental container, which comprises a support, wherein the top surface of the support is a horizontal bearing surface; the support is erected on the support, and the inner side of the support is an operation space positioned on the horizontal bearing surface; the lifting parts are arranged on the horizontal bearing surface in the operating space at intervals with the lifting ends facing upwards; the supporting and fixing parts are arranged on the lifting ends of the lifting part in a one-to-one correspondence manner; the cleaning parts are arranged on the bracket at intervals with the cleaning ends facing downwards and correspond to the supporting parts one by one. The utility model has the advantages that the inner wall of the experimental container to be cleaned, which is fixed on the supporting part, is easily cleaned, the inner wall of the experimental container is automatically cleaned, the manpower is liberated, and the labor intensity is reduced; the automatic extension or the shortening of inner wall shape according to the experiment container can also be easily adapted to the experiment container of different shapes, is particularly suitable for the special experiment container of shape, ensures that the inner wall homoenergetic of various experiment containers can be scrubbed cleanly, guarantees the cleaning performance.

Description

Inner wall cleaning rack for experimental container

Technical Field

The utility model relates to the technical field of basic biological and medical experiments, in particular to an inner wall cleaning rack for an experiment container.

Background

In basic experiments of biology, medicine and the like, various reagents are required to be configured frequently, and experiment containers such as measuring cylinders, measuring cups, flasks and the like are usually used for reagent configuration; after the reagent is prepared, the experimental container needs to be cleaned, so that the experimental container can be used next time.

At present, most of experimental containers are cleaned manually through test tube brushes, but the lengths of the test tube brushes are usually relatively fixed and generally range from 10 cm to 15cm, and the height of a measuring cylinder is about 30cm, so that when the test tube brushes are manually held for cleaning, the test tube brushes are difficult to clean the bottom of the measuring cylinder, or the hands of the test tube brushes extend into the measuring cylinder, and pollution is easily caused; in addition, the test container corresponds to some special shapes, such as: the shape of the conical flask, the flask and the like is not a cylinder, but the mouth part is narrowed, and the shape of the lower part is special, so that the test tube brush is more inconvenient to brush for the experimental container, and the inner wall of the container is difficult to clean thoroughly.

Disclosure of Invention

The utility model aims to provide a cleaning rack for the inner wall of an experimental container.

In order to achieve the purpose, the utility model can adopt the following technical scheme:

the utility model relates to an inner wall cleaning rack of an experiment container, which comprises:

the top surface of the support is a horizontal bearing surface;

the support is erected on the support, and the inner side of the support is an operation space positioned on the horizontal bearing surface;

the lifting parts are arranged on the horizontal bearing surface in the operating space at intervals with the lifting ends facing upwards;

the supporting and fixing parts are arranged on the lifting ends of the lifting part in a one-to-one correspondence manner and are used for supporting and fixing the experimental container to be cleaned; and

the cleaning parts are arranged on the support at intervals with the cleaning ends facing downwards, correspond to the supporting parts one by one, and are used for matching with the supporting parts to clean the inner wall of the experimental container to be cleaned, wherein the inner wall of the experimental container is fixed on the supporting parts.

Furthermore, an anti-skid cushion layer is attached to the bottom surface of the support.

Furthermore, the bracket is of a door-shaped structure formed by a pair of vertical rods and a horizontal cross brace horizontally erected at the upper ends of the two vertical rods, and the width of the bracket is consistent with that of the support.

Furthermore, the lifting parts are arranged at intervals in two groups along the length direction of the horizontal cross brace, and each group of lifting parts is composed of an electric telescopic rod vertically arranged on the horizontal bearing surface.

Furthermore, the supporting and fixing parts are two groups, each group of supporting and fixing parts comprises a horizontal supporting plate which is vertically fixed at the upper end of the electric telescopic rod, the top surface of each horizontal supporting plate is a horizontal supporting surface for supporting the experimental container to be cleaned, and a clamping assembly for clamping the experimental container to be cleaned is arranged on each horizontal supporting surface.

Furthermore, the centre gripping subassembly is including offering in a pair of slide that is parallel to each other on the horizontal pallet top surface, the length direction of slide with the width direction of horizontal pallet is unanimous, and it is provided with a pair of grip block to slide along length direction on the slide, is provided with in the slide and pushes away two the grip block is to the gliding top of slide center pushes away the spring.

Furthermore, the cleaning part be with prop up the one-to-one of solid portion two sets ofly, every group cleaning part all include one set up in driving motor on the horizontal cross brace, driving motor's drive shaft wear out the horizontal cross brace down outside, the lower extreme of drive shaft has linked firmly a connecting plate, the department of following is close to of connecting plate wears to overlap has a pair of rectangular ring, two the rectangular ring is followed the width direction interval of connecting plate sets up, and the cover is equipped with one respectively on two rectangular rings is used for the shore spring of the top shoring to the direction of keeping away from the connecting plate, two the top shoring spring is located respectively the left and right sides of connecting plate, is located the cover and is equipped with on the rectangular ring beyond the top shoring spring and is used for scrubbing the brush hair cover of waiting to wash the experiment container inner wall.

Furthermore, the two cross rod sections which enclose the rectangular ring are telescopic sleeves, and the top bracing spring has a compression posture which is compressed to one half of the length of the telescopic sleeves in a contraction state and an extension posture which is extended to be consistent with the length of the telescopic sleeves in an extension state.

Furthermore, the brush hair sleeve is composed of a flexible pad with a rectangular structure and bristles uniformly distributed on one side face of the flexible pad.

Furthermore, magic tapes which are mutually matched and bonded are arranged on the two long edges of the flexible pad.

The cleaning device has the advantages that the cleaning part which is arranged on the bracket and corresponds to the supporting and fixing part is used for easily cleaning the inner wall of the experimental container to be cleaned and fixed on the supporting and fixing part, so that the inner wall of the experimental container can be automatically cleaned, manpower is liberated, and labor intensity is reduced; meanwhile, the experimental containers to be cleaned on the supporting and fixing part can be easily lifted and lowered by matching with the lifting part arranged on the supporting seat, so that the bottom of each experimental container can be cleaned; in addition, the cleaning part consisting of the driving motor, the driving shaft, the connecting plate, the rectangular ring, the top supporting spring and the brush hair sleeve can automatically extend or shorten according to the shape of the inner wall of the experiment container, is easily adapted to the experiment containers in different shapes, is particularly suitable for the experiment containers in special shapes, ensures that the inner walls of various experiment containers can be brushed cleanly, and ensures the cleaning effect.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is an enlarged plan view of the supporting portion in fig. 1.

Fig. 3 is an enlarged view of the cleaning portion in fig. 1.

Fig. 4 is a top view of fig. 3 (with the drive motor and bristle cover removed).

FIG. 5 is a schematic view of the rectangular ring of FIG. 3 extending into the test container to be cleaned (with the bristle cover hidden).

Fig. 6 is an expanded view of the bristle cover of fig. 3.

Fig. 7 is a top view of fig. 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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 obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

As shown in FIG. 1, the inner wall cleaning rack for an experimental container according to the present invention includes a support 1, a holder 2, a lifting unit, a supporting unit, and a cleaning unit.

The top surface of the support 1 is a horizontal bearing surface 3, and in order to enable the support 1 to be more stable when placed, an anti-skid cushion layer 4 can be attached to the bottom surface of the support 1; the support 2 is erected on the support 1, and the inner side of the support 2 is an operation space 5 positioned on the horizontal bearing surface 3; the lifting parts are arranged in a plurality of groups, and each group of lifting parts is arranged on the horizontal bearing surface 3 in the operation space 5 at intervals with the lifting end facing upwards; the supporting and fixing parts are a plurality of groups with the same number as the lifting parts, are arranged on the lifting ends of the lifting parts in a one-to-one correspondence manner and are used for supporting and fixing the experimental containers 6 to be cleaned; the cleaning parts are multiple groups of the same number as the supporting parts, the cleaning ends of each group of cleaning parts are arranged on the support 2 at intervals, and the cleaning parts correspond to the supporting parts one to one and are used for matching with the supporting parts to clean the inner walls of the to-be-cleaned experimental containers 6 fixed on the supporting parts.

Specifically, the bracket 2 is a door-shaped structure formed by a pair of vertical rods 2.1 and a horizontal cross brace 2.2 horizontally erected at the upper ends of the two vertical rods 2.1, and the width of the bracket 2 is consistent with the width of the support 1 (i.e. the length of the support 1 in the left-right direction in fig. 1).

The lifting parts are arranged at intervals along the length direction of the horizontal cross brace 2.2 (namely the width direction of the support 1), each lifting part is composed of an electric telescopic rod 7 vertically arranged on the horizontal bearing surface 3, and a lifting driving key for driving the electric telescopic rod 7 to lift and a power main switch are arranged on the front side surface of the support 1.

Correspondingly, the number of the supporting and fixing parts is two, each group of the supporting and fixing parts comprises a horizontal supporting plate 8 which is vertically fixed at the upper end of the electric telescopic rod 7, the top surface of the horizontal supporting plate 8 is a horizontal supporting surface for supporting the experimental container 6 to be cleaned, and a clamping component for clamping the experimental container 6 to be cleaned is arranged on the horizontal supporting surface of the horizontal supporting plate 8; as shown in fig. 2, the clamping assembly includes a pair of mutually parallel slideways 9 arranged on the top surface of the horizontal supporting plate 8, the length direction of the slideways 9 is consistent with the width direction of the horizontal supporting plate 8 (i.e. the left-right direction of the horizontal supporting plate 8 in fig. 2), a pair of clamping plates 10 is arranged on the slideways 9 in a sliding manner along the length direction, the clamping plates 10 are transversely arranged on the two slideways 9 and slide along the slideways 9, pushing springs 11 for pushing the two clamping plates 10 to slide towards the center of the slideways 9 are arranged in the slideways 9, and the two clamping plates 10 are pushed to slide towards the center of the horizontal supporting plate 8 through the pushing springs 11, so as to clamp the experimental container 6 to be cleaned, which is arranged on the horizontal supporting plate 8.

Correspondingly, the cleaning parts are also two groups corresponding to the supporting parts one by one; as shown in fig. 3 and 4, each group of cleaning parts includes a driving motor 12 disposed on the horizontal cross brace 2.2, a working key for controlling the driving motor 12 to work can be disposed on the front side wall of the horizontal cross brace 2.2, and a driving shaft 13 of the driving motor 12 extends downward out of the horizontal cross brace 2.2; the lower end of the driving shaft 13 is fixedly connected with a connecting plate 14, a pair of rectangular rings 15 are sleeved on the connecting plate 14 close to the lower edge of the connecting plate 14 in a penetrating manner, the two rectangular rings 15 are movably sleeved on the connecting plate 14 in a penetrating manner, and the two rectangular rings 15 are arranged at intervals along the width direction of the connecting plate 14; the two rectangular rings 15 are respectively sleeved with a supporting spring 16 for supporting in the direction far away from the connecting plate 14, the two supporting springs 16 are respectively positioned at the left side and the right side of the connecting plate 14, and then the two rectangular rings 15 are pushed to the two sides, so that the two rectangular rings 15 are arranged in a staggered manner in the horizontal direction; the rectangular ring 15 located outside the top-support spring 16 is also fitted with a brush cover 17 for brushing the inner wall of the test container 6 to be cleaned. As shown in fig. 6, the bristle cover 17 can be composed of a flexible pad 17.1 with a rectangular structure and bristles 17.2 uniformly distributed on one side of the flexible pad 17.1; in order to facilitate the sheathing and the detachment of the bristle cover 17, as shown in fig. 7, magic glues 18 which are mutually matched and adhered can be arranged at the two long sides of the flexible pad 17.1, so that the flexible pad 17.1 can be coated on the rectangular ring 15 through the mutual adhesion of the magic glues 18, and meanwhile, the bristles 17.2 are ensured to face outwards.

Further, in order to make the rectangular rings 15 be able to be opened more outward when being subjected to the outward propping force of the propping springs 16, the two cross rod sections enclosing the rectangular rings 15 can be designed as telescopic sleeves, and at this time, the propping springs 16 should have a compressed posture (as shown in fig. 5) compressed to one half of the length of the telescopic sleeves in the contracted state and an extended posture (as shown in fig. 3) extended to the length consistent with the length of the telescopic sleeves in the extended state, so that after the telescopic sleeves of the two rectangular rings 15 are folded, the two rectangular rings 15 can still be pushed toward the connecting plate 14, the two propping springs 16 are further compressed, the two rectangular rings 15 are moved to the middle part and aligned with the connecting plate 14, thereby ensuring that the two rectangular rings 15 can be inserted from the bottleneck of the experimental container 6 to be cleaned when being folded to the shortest distance and automatically extend in the experimental container 6 to be cleaned, and ensuring that the inner walls of the experimental container 6 to be cleaned can be thoroughly cleaned, the range values of the folding and the unfolding of the two rectangular rings 15 are greatly increased, so that the cleaning of experimental containers with various shapes is met, and the cleaning device is particularly suitable for experimental containers with smaller bottle mouths and larger bottle bodies (such as conical flasks and the like). In addition, because the flexible pad 17.1 is made of flexible material, when the rectangular ring 15 is contracted, the flexible pad 17.1 is also compressed together in a wrinkled state, and when the rectangular ring 15 is expanded again, the flexible pad 17.1 is expanded again, so that the flexible pad 17.1 does not influence the expansion of the two compressed rectangular rings 15 into the experimental container 6 to be cleaned.

When in use, firstly, the experimental container 6 to be cleaned is placed on the horizontal supporting plate 8 and is clamped and fixed by the clamping component; then sheathing a brush sleeve 17 on the rectangular ring 15 of the cleaning part, and operating the electric telescopic rod 7 to ascend, so that the rectangular ring 15 of the cleaning part can extend into the experimental container 6 to be cleaned, and when the electric telescopic rod 7 ascends, pressing the rectangular ring 15 of the cleaning part by hands, so that the rectangular ring 15 is in a compressed state as shown in fig. 5 and can extend into the experimental container 6 to be cleaned; when the compressed rectangular ring 15 extends into the bottleneck of the experimental container 6 to be cleaned, the hand can be loosened, at the moment, the rectangular ring 15 can be horizontally expanded outwards under the resilience action of the jacking spring 16, and the jacking spring props against the inner wall of the experimental container 6 to be cleaned and can be expanded or contracted according to the shape of the inner wall of the experimental container 6 to be cleaned; then, injecting a cleaning solution into the experimental container 6 to be cleaned, and then starting the driving motor 12 of the cleaning part to enable the driving motor 12 to drive the connecting plate 14 to rotate, so that the two rectangular rings 15 penetrating and sleeved on the connecting plate 14 horizontally rotate by taking the driving shaft 13 as a center to brush the inner wall of the experimental container 6 to be cleaned; in the brushing process, the electric telescopic rod 7 can be operated to repeatedly lift at a specific frequency, so that the inner wall of the experimental container 6 to be cleaned is comprehensively brushed, the inner wall of the experimental container is automatically cleaned, manpower is liberated, labor intensity is reduced, and the cleaning effect of the inner wall of the experimental container 6 to be cleaned is ensured.

Claims (10)

1. The utility model provides an experiment container inner wall wash rack which characterized in that: comprises that

The top surface of the support is a horizontal bearing surface;

the support is erected on the support, and the inner side of the support is an operation space positioned on the horizontal bearing surface;

the lifting parts are arranged on the horizontal bearing surface in the operating space at intervals with the lifting ends facing upwards;

the supporting and fixing parts are arranged on the lifting ends of the lifting part in a one-to-one correspondence manner and are used for supporting and fixing the experimental containers to be cleaned; and

the cleaning parts are arranged on the support at intervals with the cleaning ends facing downwards, correspond to the supporting parts one by one and are used for matching with the supporting parts to clean the inner wall of the experimental container to be cleaned, wherein the inner wall of the experimental container is fixed on the supporting parts.

2. The inner wall cleaning rack for the experiment container as claimed in claim 1, wherein: an anti-skid cushion layer is attached to the bottom surface of the support.

3. The inner wall cleaning rack for the experiment container as claimed in claim 1, wherein: the bracket is of a door-shaped structure formed by a pair of vertical rods and a horizontal cross brace horizontally erected at the upper ends of the two vertical rods, and the width of the bracket is consistent with that of the support.

4. The inner wall cleaning rack for the experiment container according to claim 3, wherein: the lifting parts are arranged at intervals in two groups along the length direction of the horizontal cross brace, and each group of lifting parts is composed of an electric telescopic rod vertically arranged on the horizontal bearing surface.

5. The inner wall cleaning rack for the experiment container according to claim 4, wherein: the top surface of the horizontal supporting plate is a horizontal supporting surface used for supporting the experimental container to be cleaned, and the horizontal supporting surface is provided with a clamping component used for clamping the experimental container to be cleaned.

6. The inner wall cleaning rack for the experiment container as claimed in claim 5, wherein: the clamping assembly comprises a pair of mutually parallel slide ways arranged on the top surface of the horizontal supporting plate, the length direction of each slide way is consistent with the width direction of the horizontal supporting plate, a pair of clamping plates is arranged on each slide way in a sliding mode along the length direction, and a pushing spring for pushing the two clamping plates to slide towards the center of each slide way is arranged in each slide way.

7. The inner wall cleaning rack for the experiment container as claimed in claim 5, wherein: the cleaning part be with prop up two sets of the one-to-one of solid portion, every group cleaning part all include one set up in driving motor on the horizontal stull, driving motor's drive shaft is worn out the horizontal stull downwards outside, the lower extreme of drive shaft has linked firmly a connecting plate, the department of following is worn to overlap and has a pair of rectangular ring, two near the connecting plate the rectangular ring is followed the width direction interval of connecting plate sets up, and the cover is equipped with one respectively on two rectangular rings and is used for to the shoring of the direction of keeping away from the connecting plate shore the spring, two the shoring spring is located respectively the left and right sides of connecting plate, the cover is equipped with on the rectangular ring that is located outside the shoring spring and is used for scrubbing wait to wash the brush hair cover of experiment container inner wall.

8. The inner wall cleaning rack for the experiment container according to claim 7, wherein: the two cross rod sections which enclose the rectangular ring are telescopic sleeves, the top bracing spring is sleeved on one cross rod section of the rectangular ring, and the top bracing spring has a compression posture which is compressed to be one half of the length of the telescopic sleeve in a contraction state and an extension posture which is extended to be consistent with the length of the telescopic sleeve in an extension state.

9. The inner wall cleaning rack for the experiment container as claimed in claim 7, wherein: the brush hair sleeve is composed of a flexible pad with a rectangular structure and soft hair uniformly distributed on one side face of the flexible pad.

10. The inner wall cleaning rack for the experiment container according to claim 9, wherein: magic tapes which are mutually matched and bonded are arranged at the two long edges of the flexible pad.

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