CN215032080U - Cleaning device - Google Patents

Abstract

The present disclosure relates to a cleaning device, comprising a cleaning cavity, and a first support frame and a second support frame which are oppositely arranged in the cleaning cavity; the first support frame is provided with at least two brushes, the second support frame is positioned above the first support frame, the second support frame is provided with at least two clamping holes at intervals, one brush corresponds to one clamping hole, and when a reagent bottle to be cleaned is clamped in the clamping hole, the opening of the reagent bottle to be cleaned faces the brushes; the first support frame is connected with the cleaning cavity through a connecting structure and can move in the direction close to the second support frame so that the brush extends into the reagent bottle to be cleaned to wash the reagent bottle to be cleaned, or move in the direction far away from the second support frame so that the brush is moved out of the reagent bottle to be cleaned; when the brush stretched into and waited to wash the reagent bottle, the brush can be rotatory along the lateral wall of waiting to wash the reagent bottle, and the cooperation washs water and cleans in order to treating to wash the reagent bottle, can wash a plurality of reagent bottles simultaneously, labour saving and time saving, and the cleaning efficiency is high.

Description

Cleaning device

Technical Field

The utility model relates to a reagent bottle washs technical field, especially relates to a belt cleaning device.

Background

Reagent bottles are bottles for holding chemical reagents and are often used in laboratories in frequent, large quantities. After use, stains which are difficult to clean may be adhered to the inside of the reagent bottle, and the reagent bottle after use is cleaned for the convenience of subsequent use.

However, at present, a brush is usually held by a cleaning person to clean reagent bottles in sequence, which is time-consuming, labor-consuming, low in cleaning efficiency, not thoroughly affected by cleaning, and even can delay the progress of the experiment.

SUMMERY OF THE UTILITY MODEL

To solve the above technical problem or at least partially solve the above technical problem, the present disclosure provides a cleaning device.

The present disclosure provides a cleaning device comprising a cleaning chamber and a first support frame and a second support frame arranged in the cleaning chamber in an opposing manner;

at least two brushes are arranged on one side, close to the second support frame, of the first support frame at intervals, the brushes extend in the direction far away from the first support frame, the second support frame is located above the first support frame, at least two clamping holes are arranged on the second support frame at intervals, the clamping holes are used for clamping reagent bottles to be cleaned, one brush corresponds to one clamping hole, and when the reagent bottles to be cleaned penetrate through the clamping holes and are clamped by the clamping holes, the openings of the reagent bottles to be cleaned face the brushes;

the first support frame is connected with the cleaning cavity through a connecting structure and can move in a direction towards the second support frame so that the brush extends into the reagent bottle to be cleaned to wash the reagent bottle to be cleaned, or move in a direction away from the second support frame so that the brush is removed from the reagent bottle to be cleaned; when the brush extends into the reagent bottle to be cleaned, the brush can rotate along the side wall of the reagent bottle to be cleaned.

Further, the connecting structure comprises a sliding groove and a sliding rail matched with the sliding groove; the sliding groove is arranged on one of the cleaning cavity and the first support frame, the sliding rail is arranged on the other of the cleaning cavity and the first support frame, and the sliding groove and the sliding rail are arranged in an extending mode along a direction close to the second support frame or far away from the second support frame, so that the first support frame can move relative to the second support frame.

Furthermore, a lifting control mechanism is arranged on the outer wall of the cleaning cavity, and the sliding rail is electrically connected with the lifting control mechanism, so that the sliding rail can move along the sliding groove in the direction close to or far away from the second support frame.

Furthermore, one side of the first support frame, which is close to the second support frame, is provided with at least two assembling columns at intervals, and at least two brushes are respectively connected to the assembling columns and can rotate along the circumferential direction of the assembling columns.

Further, the cleaning device comprises a water gap communicated with the cleaning cavity so as to inject cleaning water into the cleaning cavity through the water gap or discharge the cleaning water through the water gap.

Furthermore, the water gap is positioned below the first support frame, at least one water passing groove is formed in the first support frame, and the water gap is communicated with the cleaning cavity through the water passing groove; the water gap is communicated with a water drainage pipe.

Further, a flexible stop layer is arranged between the second support frame and the top wall of the cleaning cavity, and when the reagent bottle to be cleaned penetrates through and is clamped in the clamping hole, one end, far away from the brush, of the reagent bottle to be cleaned is abutted to the flexible support layer.

Furthermore, the flexible supporting layer is provided with at least two grooves, one groove corresponds to one clamping hole, the groove is matched with the reagent bottle to be cleaned, and when the reagent bottle to be cleaned penetrates through and is clamped in the clamping hole, one end, far away from the brush, of the reagent bottle to be cleaned extends into the corresponding groove.

Further, a flexible pad is arranged on the inner wall of the clamping hole.

Further, a control knob is arranged on the outer wall of the cleaning cavity and used for controlling the rotation state of the brush, and the rotation state comprises at least one of rotation time and rotation speed.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

in the cleaning device provided by the disclosure, by arranging the cleaning cavity and the first support frame and the second support frame which are oppositely arranged in the cleaning cavity, at least two brushes are arranged on one side of the first support frame close to the second support frame at intervals, the second support frame is positioned above the first support frame, at least two clamping holes are arranged on the second support frame at intervals, and one brush corresponds to one clamping hole. When the reagent bottle cleaning device is used, a reagent bottle to be cleaned is clamped in the clamping hole, and the opening of the reagent bottle to be cleaned faces the brush; moving the first support frame in the direction close to the second support frame so that the brush extends into the reagent bottle to be cleaned, and when the brush extends into the reagent bottle to be cleaned, the brush can rotate along the side wall of the reagent bottle to be cleaned and is matched with cleaning water to clean the reagent bottle to be cleaned; after the reagent bottle to be cleaned is cleaned, the first support frame is moved in the direction far away from the second support frame, so that the brush is moved out of the reagent bottle to be cleaned. At this time, the cleaned reagent bottle can be taken out of the clamping hole, and the reagent bottle to be cleaned is clamped again in the clamping hole. Based on this, the belt cleaning device that this disclosure provided, simple structure, convenient operation can wash a plurality of reagent bottles simultaneously, and labour saving and time saving saves the cost of labor, and the cleaning efficiency is high.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic perspective view of a cleaning apparatus according to an embodiment of the disclosure;

FIG. 2 is a perspective view of a first perspective view of a cleaning device according to an embodiment of the present disclosure;

FIG. 3 is a perspective view of a second perspective of a cleaning device according to an embodiment of the present disclosure;

fig. 4 is a partial schematic view of a cleaning apparatus according to an embodiment of the disclosure.

Wherein, 10-cleaning chamber; 20-a first support frame; 21-assembling a column; 22-passing through a water tank; 30-a second support; 31-a clamping hole; 40-a brush; 50-a lifting knob; 60-water gap; 70-a flexible stopper layer; 71-a groove; 81-time knob; 82-speed knob; 90-reagent bottle.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that the embodiments and features of the embodiments of the present disclosure may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced in other ways than those described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.

Referring to fig. 1 to 4, the present embodiment provides a washing device including a washing chamber 10 and first and second support frames 20 and 30 oppositely disposed in the washing chamber 10; at least two brushes 40 are arranged on one side of the first support frame 20 close to the second support frame 30 at intervals, and the brushes 40 extend in a direction away from the first support frame 20, that is, a plurality of brushes 40 are arranged on the first support frame 20 at intervals, and the plurality of brushes 40 extend in a direction close to the second support frame 30; referring to fig. 1, the second support frame 30 is located above the first support frame 20, that is, the first support frame 20 is located below the cleaning chamber 10, the second support frame 30 is located above the first support frame 20, and at least two clamping holes 31 are spaced from each other on the second support frame 30, that is, a plurality of clamping holes 31 are spaced from each other on the first support frame 20, the clamping holes 31 are used for clamping the reagent bottles 90 to be cleaned, one brush 40 corresponds to one clamping hole 31, and when the reagent bottles 90 to be cleaned are clamped by the clamping holes 31 in the clamping holes 31, the opening of the reagent bottles 90 to be cleaned faces the brush 40.

It should be noted that the above and below are only based on the viewing angle shown in fig. 1, and in an actual application scenario, the relative orientation of each component is not limited thereto.

The cleaning chamber 10 may be any suitable structure such as a cube, a rectangular parallelepiped, or a sphere, and can simultaneously receive cleaning water, at least two reagent bottles 90 to be cleaned, and at least two brushes 40 to simultaneously clean a plurality of reagent bottles 90. The cleaning chamber 10 may be an integrally formed structure with good integrity and good load bearing. Of course, the cleaning cavity 10 may also be formed by enclosing a casing made of any suitable material by welding, structural adhesive bonding, or the like, for example, the casing is made of a transparent material, which is convenient for observation.

In addition, the clamping hole 31 is a through hole, that is, the hole depth of the clamping hole 31 is not less than the thickness of the second support 30. The diameter of the clamping hole 31 is matched with the outer diameter of the reagent bottle 90 to be cleaned, so that the reagent bottle 90 to be cleaned can be clamped in the clamping hole 31 in a penetrating mode. It is easily understood by those skilled in the art that when the reagent bottle 90 to be cleaned is clamped in the clamping hole 31, the open end of the reagent bottle 90 to be cleaned is located on the side of the second support frame 30 close to the first support frame 20, and the bottom end of the reagent bottle 90 to be cleaned is located on the side of the second support frame 30 far from the first support frame 20.

In this embodiment, in order to facilitate the movement of the first support frame 20 relative to the cleaning chamber 10, the first support frame 20 is connected to the cleaning chamber 10 by a connecting structure and can be moved in a direction toward the second support frame 30 to enable the brush 40 to extend into the reagent bottle 90 to be cleaned to wash the reagent bottle 90 to be cleaned, that is, the first support frame 20 is moved upward to enable the brush 40 to extend into the reagent bottle 90 to be cleaned to wash the reagent bottle 90 to be cleaned, or moved in a direction away from the second support frame 30 to enable the brush 40 to be removed from the reagent bottle 90 to be cleaned, that is, the first support frame 20 is moved downward to enable the brush 40 to be removed from the reagent bottle 90 to be cleaned, wherein when the brush 40 extends into the reagent bottle 90 to be cleaned, the brush 40 can be rotated along the side wall of the reagent bottle 90 to be cleaned. By the design, the second support frame 30 and the cleaning cavity 10 are relatively fixed, and the first support frame 20 can move in the direction close to or far away from the second support frame 30, namely in the up-down direction of the cleaning cavity 10, so that the structure is simple and the operation is convenient.

A space for accommodating the brush 40 is arranged between the first support frame 20 and the second support frame 30 at an interval, and the first support frame 20 can move in the space in a direction toward the second support frame 30 or away from the second support frame 30 under the action of the connecting structure, so that the brush 40 is switched between extending into the to-be-cleaned reagent bottle 90 for cleaning and moving out to the to-be-cleaned reagent bottle 90 for cleaning.

In addition, the first support frame 20 and the second support frame 30 may be arranged in parallel, and of course, the first support frame 20 may be inclined at any suitable angle relative to the second support frame 30, or the second support frame 30 may be inclined at any suitable angle relative to the first support frame 20, so as to conveniently set the brushes 40 with different heights to clean the experimental containers with corresponding heights, and the adaptability is good.

In addition, the first support frame 20 and the second support frame 30 may be made of any suitable material, so that the reagent bottles 90 to be cleaned can be cleaned simultaneously, and the requirements on bearing capacity and strength can be met. For example, the first and second support brackets 20 and 30 may be made of stainless steel, PVC, or the like.

It should be noted that the movement of the first support frame 20 in the direction approaching or departing from the second support frame 30 can be achieved either manually or by electric control.

As an alternative embodiment, the first support frame 20 is fixed relative to the wash chamber 10 and the second support frame 30 is movable in a direction towards or away from the first support frame 20. In a specific implementation, the second support frame 30 can be moved in a direction toward the first support frame 20 to enable the brush 40 to extend into the reagent bottle 90 to be cleaned to wash the reagent bottle 90 to be cleaned, that is, the first support frame 20 is moved downward to enable the brush 40 to extend into the reagent bottle 90 to be cleaned to wash the reagent bottle 90 to be cleaned, or moved in a direction away from the first support frame 20 to enable the brush 40 to be removed from the reagent bottle 90 to be cleaned, that is, the first support frame 20 is moved upward to enable the brush 40 to be removed from the reagent bottle 90 to be cleaned, wherein when the brush 40 extends into the reagent bottle 90 to be cleaned, the brush 40 can be rotated along the side wall of the reagent bottle 90 to be cleaned.

When the reagent bottle cleaning device is used specifically, a plurality of reagent bottles 90 to be cleaned are clamped in one clamping hole 31 respectively, then the position of the first support frame 20 relative to the second support frame 30 is adjusted, the plurality of brushes 40 extend into the corresponding reagent bottles 90 to be cleaned above the plurality of brushes 40, and the brushes 40 are rotated to enable the brushes 40 to rotate along the side walls of the corresponding reagent bottles 90 to be cleaned, so that the reagent bottles 90 to be cleaned are cleaned and brushed at the same time. After the reagent bottles 90 to be cleaned are cleaned, the position of the first support frame 20 relative to the second support frame 30 is adjusted, so that the plurality of brushes 40 are respectively moved out of the corresponding reagent bottles 90 to be cleaned, thereby facilitating the subsequent use.

Through the technical scheme, in the cleaning device provided by the disclosure, by arranging the cleaning cavity 10 and the first support frame 20 and the second support frame 30 which are oppositely arranged in the cleaning cavity 10, at least two brushes 40 are arranged on one side of the first support frame 20 close to the second support frame 30 at intervals, the second support frame 30 is positioned above the first support frame 20, at least two clamping holes 31 are arranged on the second support frame 30 at intervals, and one brush 40 corresponds to one clamping hole 31. When in specific use, the reagent bottle 90 to be cleaned is clamped in the clamping hole 31, and the opening of the reagent bottle 90 to be cleaned faces the brush 40; then, the first support frame 20 is moved in a direction close to the second support frame 30 so that the brush 40 extends into the reagent bottle 90 to be cleaned, and when the brush 40 extends into the reagent bottle 90 to be cleaned, the brush 40 can rotate along the side wall of the reagent bottle 90 to be cleaned and is matched with cleaning water to clean the reagent bottle 90 to be cleaned; after the reagent bottle 90 to be cleaned is cleaned, the first support frame 20 is moved in a direction away from the second support frame 30 to remove the brush 40 from the reagent bottle 90 to be cleaned. At this time, the cleaned reagent bottle 90 may be taken out of the holding hole 31, and the reagent bottle 90 to be cleaned may be re-held in the holding hole 31. Based on this, the belt cleaning device that this disclosure provided, simple structure, convenient operation can wash a plurality of reagent bottles 90 simultaneously, and labour saving and time saving saves the cost of labor, and the cleaning efficiency is high.

In this embodiment, in order to facilitate adjustment of the relative position between the first support frame 20 and the second support frame 30, the first support frame 20 is connected with the washing chamber 10 by a connection structure.

Wherein the connecting structure can be any suitable structure, as long as the relative position between the first support frame 20 and the second support frame 30 can be adjusted in the direction approaching to the second support frame 30 and away from the second support frame 30.

Further, the connecting structure comprises a sliding groove and a sliding rail matched with the sliding groove; the slide groove is provided on one of the wash chamber 10 and the first support frame 20, and the slide rail is provided on the other of the wash chamber 10 and the first support frame 20, and both the slide groove and the slide rail are extended and arranged in a direction approaching to the second support frame 30 or departing from the second support frame 30, so that the first support frame 20 can move relative to the second support frame 30.

During the concrete implementation, the spout and the slide rail that mutually support can be a set of, also can be the multiunit, and multiunit slide rail and spout set up on the outer fringe of washing chamber 10 or first support frame 20 along circumference interval respectively.

As an alternative embodiment, the inner wall of the cleaning chamber 10 is provided with a sliding groove, the outer edge of the first support frame 20 is provided with a sliding rail, and both the sliding groove and the sliding rail extend in a direction close to the second support frame 30 or away from the second support frame 30, so that the first support frame 20 can move relative to the second support frame 30 in a direction close to the second support frame 30 or away from the second support frame 30 to adjust the relative position of the first support frame 20 and the second support frame 30, and the structure is simple and easy to implement.

Wherein, the sliding groove and the sliding rail can be separate components, and are respectively connected with the outer edge of the cleaning cavity 10 or the first supporting frame 20 by welding and the like. Of course, the sliding groove and the sliding rail can also be integrally formed with the cleaning cavity 10 or the first support frame 20 respectively, so that the integrity is good and the strength is high.

As an alternative embodiment, the inner wall of the cleaning chamber 10 is provided with a slide rail, the outer edge of the first support frame 20 is provided with a slide groove, and both the slide groove and the slide rail extend along a direction close to the second support frame 30 or away from the second support frame 30, so that the first support frame 20 can move relative to the second support frame 30 along a direction close to the second support frame 30 or away from the second support frame 30 to adjust the relative position of the first support frame 20 and the second support frame 30, and the structure is simple and easy to implement.

In the present embodiment, referring to fig. 1 and 2, a lifting control mechanism is disposed on an outer wall of the cleaning chamber 10, and the slide rail is electrically connected to the lifting control mechanism, so that the slide rail can move along the sliding groove in a direction approaching to the second supporting frame 30 or away from the second supporting frame 30.

In a specific implementation, the lifting control mechanism may include a lifting driver and a lifting knob 50, wherein the lifting driver is located in the cleaning chamber 10 and electrically connected to both the sliding rail and the lifting knob 50, and the lifting knob 50 is disposed on an outer wall of the cleaning chamber 10. The operator can open the lifting knob 50, and the slide rail can move along the sliding groove under the action of the lifting driver, so as to adjust the relative position between the first support frame 20 and the second support frame 30. After the position between the first support frame 20 and the second support frame 30 is adjusted, the lifting knob 50 is closed, and the sliding groove stops moving, so that the relative position between the first support frame 20 and the second support frame 30 is kept, and the cleaning operation of the reagent bottle 90 to be cleaned is further facilitated.

The lifting driver can be a ball screw or a gear rack and the like, can be selected at will according to specific use environments, and is not limited too much.

In the present embodiment, in order to facilitate the assembly of the brush 40 on the first support frame 20, referring to fig. 1 to 3, at least two assembly columns 21 are spaced apart from one side of the first support frame 20 close to the second support frame 30, and the at least two assembly columns 21 respectively extend in a direction away from the first support frame 20. In order to facilitate the brush 40 to perform the cleaning operation on the reagent bottle 90 to be cleaned, at least two brushes 40 are respectively connected to the assembling columns 21 and can rotate along the circumferential direction of the assembling columns 21, that is, one brush 40 is respectively rotatably connected to one end of each assembling column 21, which is far away from the first supporting frame 20. So design, the spliced pole is fixed relatively with first support frame 20, and brush 40 is rotatory around the circumference of assembly post 21 under mechanical action to the spot that will adhere to in waiting to wash reagent bottle 90 is cleaned and is brushed and get rid of, simple structure, uses in a flexible way.

The assembling column 21 and the first support frame 20 can be integrally formed, and the assembling column has the advantages of good integrity, excellent bearing performance and high strength. Certainly, the assembling column 21 can be detachably connected with the first support frame 20 through a threaded connection or a clamping connection and the like, so that the replacement is convenient, and the cost is saved.

Further, referring to fig. 1 and 3, the washing apparatus includes a water gap 60, and the water gap 60 communicates with the washing chamber 10 to inject washing water into the washing chamber 10 through the water gap 60 or to discharge the washing water through the water gap 60.

In this embodiment, the cleaning chamber 10 may be filled with cleaning water through the water inlet 60 to perform cleaning and washing on the reagent bottle 90 to be cleaned in cooperation with the brush 40. Of course, after the cleaning, the cleaning water containing the dirt in the cleaning chamber 10 can be discharged through the water inlet 60, and at this time, the water inlet 60 is the water inlet 60 and the water outlet 60.

The cleaning water may be pure water or water containing a detergent.

Further, in order to facilitate water injection and drainage, the water gap 60 is located below the first support frame 20, at least one water passing groove 22 is formed in the first support frame 20, the water gap 60 is communicated with the cleaning cavity 10 through the water passing groove 22, and the water gap 60 is communicated with a drain pipe. Water is injected into the washing chamber 10 from below the first support frame 20 through the water gate 60, and the washing water overflows into the washing chamber 10 through the water passing tank 22. After the reagent bottle 90 to be cleaned is cleaned, the cleaning water containing the dirt is discharged out of the outer wall of the cleaning cavity 10 through the water passing groove 22 and the water port 60 under the action of gravity, the structure is simple, power supply driving is not needed, and the cost is saved.

The number of the water gaps 60 may be one or plural, and when the number of the water gaps 60 is plural, the plural water gaps 60 are provided at intervals along the circumferential direction of the cleaning chamber 10.

There may be water stain on the clean reagent bottle 90 inner wall, and water stain falls to first support frame 20 under the action of gravity to discharge through crossing basin 22 and mouth of a river 60, simple structure facilitates the use.

As an alternative embodiment, the nozzle 60 may be arranged at the top of the wash chamber 10, and the top of the wash chamber 10 may be provided with an opening forming the nozzle 60, although the top of the wash chamber 10 may be entirely open for forming the nozzle 60. In the concrete implementation, cleaning water is injected into the cleaning cavity 10 through the water gap 60 at the top of the cleaning cavity 10, and the cleaning water is matched with the brush 40 to clean the reagent bottle 90 to be cleaned; after the cleaning, the reagent bottle 90 held in the holding hole 31 is pumped by a suction pipe or the cleaning chamber 10 is turned upside down to discharge the cleaning water containing the stain in the cleaning chamber 10.

Further, referring to fig. 4, a flexible stop layer 70 is arranged between the second support frame 30 and the top wall of the cleaning cavity 10, when the reagent bottle 90 to be cleaned is clamped in the clamping hole 31 in a penetrating manner, one end of the reagent bottle 90 to be cleaned, which is far away from the brush 40, abuts against the flexible support layer, and with such a design, when the brush 40 extends into the reagent bottle 90 to be cleaned for cleaning operation, the flexible stop layer 70 can prevent the reagent bottle 90 to be cleaned from moving in the direction far away from the first support frame 20 in the clamping hole 31, thereby effectively avoiding the defect that the brush 40 cannot clean the inner bottom wall of the reagent bottle 90 to be cleaned, and achieving high cleaning efficiency.

The flexible stop layer 70 may be integrally formed with the inner top wall of the cleaning chamber 10, or may be fixed to the inner top wall of the cleaning chamber 10 by structural adhesive bonding or the like. The flexible stop layer 70 may be a foam stop layer, a silicone stop layer, or the like, and may be arbitrarily selected according to the actual use environment without any limitation.

Further, referring to fig. 4, in order to stably support the reagent bottle, at least two grooves 71 are provided on the flexible supporting layer, one groove 71 corresponds to one clamping hole 31, the groove 71 is matched with the reagent bottle 90 to be cleaned, when the reagent bottle 90 to be cleaned is clamped in the clamping hole 31 in a penetrating manner, one end of the reagent bottle 90 to be cleaned, which is far away from the brush 40, extends into the corresponding groove 71, that is, the bottom end of the reagent bottle 90 to be cleaned is clamped in the corresponding groove 71 in a penetrating manner, and meanwhile, the opening end of the reagent bottle 90 to be cleaned is clamped in the clamping hole 31 in a penetrating manner, that is, two ends of each reagent bottle 90 to be cleaned are respectively clamped and fixed by the corresponding groove 71 and the clamping hole 31, so that the supporting is stable and firm, the reagent bottle 90 to be cleaned is prevented from moving, and the cleaning efficiency is high.

The groove 71 may be a blind hole or a through hole, as long as the bottom end of the reagent bottle 90 to be cleaned can be clamped and fixed.

Further, in order to avoid scratching or clamping damage to the reagent bottle 90 to be cleaned, a flexible pad, such as a silica gel pad or a foam pad, is disposed on the inner wall of the clamping hole 31, and the flexible pad plays a role in fixing and protecting the reagent bottle 90 to be cleaned penetrating through the clamping hole 31.

In the present embodiment, referring to fig. 1 and 2, a control knob is disposed on an outer wall of the washing chamber 10, wherein the control knob is electrically connected to the brush 40 through a control member, such as a driving rod and a rotation bearing, or a ball screw, and the control knob is used for controlling a rotation state of the brush 40, and the rotation state includes at least one of a rotation time and a rotation speed.

In a specific implementation, when the rotation state to be controlled by the brush 40 is the rotation time, the control knob is formed as a time knob 81, the time knob 81 is electrically connected to the brush 40, and the time knob 81 is disposed on the outer wall of the housing of the washing chamber 10.

When the rotation state of the brush 40 to be controlled is the rotation speed, the control knob is formed as a speed knob 82, the control knob is electrically connected with the brush 40, and the speed knob 82 is disposed on the outer wall of the housing of the washing chamber 10.

When the rotation state of the brush 40 to be controlled is the rotation time and the rotation speed, the control knobs are formed as a time knob 81 and a speed knob 82, the time knob 81 and the speed knob 82 are electrically connected to the brush 40, and the time knob 81 and the speed knob 82 are respectively disposed on the outer wall of the housing of the washing chamber 10.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A washing device, characterized by comprising a washing chamber (10) and a first support frame (20) and a second support frame (30) which are oppositely arranged in the washing chamber (10);

at least two brushes (40) are arranged on one side, close to the second support frame (30), of the first support frame (20) at intervals, the brushes (40) extend in a direction far away from the first support frame (20), the second support frame (30) is located above the first support frame (20), at least two clamping holes (31) are arranged on the second support frame (30) at intervals, the clamping holes (31) are used for clamping reagent bottles (90) to be cleaned, one brush (40) corresponds to one clamping hole (31), when the reagent bottles (90) to be cleaned penetrate through the clamping holes (31) and are clamped by the clamping holes (31), openings of the reagent bottles (90) to be cleaned face the brushes (40);

the first support frame (20) is connected with the cleaning cavity (10) through a connecting structure and can move in a direction towards the second support frame (30) so that the brush (40) extends into the reagent bottle (90) to be cleaned to wash the reagent bottle (90) to be cleaned, or move in a direction away from the second support frame (30) so that the brush (40) is removed from the reagent bottle (90) to be cleaned; when the brush (40) extends into the reagent bottle (90) to be cleaned, the brush (40) can rotate along the side wall of the reagent bottle (90) to be cleaned.

2. The cleaning device of claim 1, wherein the connecting structure comprises a chute and a slide rail engaged with the chute;

the sliding groove is arranged on one of the cleaning cavity (10) and the first support frame (20), the sliding rail is arranged on the other one of the cleaning cavity (10) and the first support frame (20), and the sliding groove and the sliding rail are arranged in an extending way along a direction close to the second support frame (30) or far away from the second support frame (30) so that the first support frame (20) can move relative to the second support frame (30).

3. The cleaning device according to claim 2, characterized in that a lifting control mechanism is arranged on the outer wall of the cleaning chamber (10), and the slide rail is electrically connected with the lifting control mechanism, so that the slide rail can move along the sliding groove in the direction close to the second support frame (30) or far away from the second support frame (30).

4. The cleaning device according to claim 1, wherein the side of the first support frame (20) close to the second support frame (30) is provided with at least two fitting columns (21) at intervals, and at least two brushes (40) are respectively connected to the fitting columns (21) and can rotate along the circumferential direction of the fitting columns (21).

5. The washing device according to claim 1, characterized in that it comprises a water gap (60), said water gap (60) communicating with said washing chamber (10) to inject washing water into said washing chamber (10) through said water gap (60) or to discharge said washing water through said water gap (60).

6. The cleaning device according to claim 5, characterized in that the water gap (60) is located below the first support frame (20), at least one water passing groove (22) is formed in the first support frame (20), and the water gap (60) is communicated with the cleaning cavity (10) through the water passing groove (22);

the water port (60) is communicated with a water drainage pipe.

7. The cleaning device according to claim 1, characterized in that a flexible stop layer (70) is arranged between the second support frame (30) and the top wall of the cleaning chamber (10), and when the reagent bottle (90) to be cleaned is clamped in the clamping hole (31) in a penetrating way, one end of the reagent bottle (90) to be cleaned, which is far away from the brush (40), abuts on the flexible stop layer (70).

8. The cleaning device according to claim 7, characterized in that at least two grooves (71) are arranged on the flexible supporting layer, one groove (71) corresponds to one clamping hole (31), the groove (71) is matched with the reagent bottle (90) to be cleaned, and when the reagent bottle (90) to be cleaned is clamped in the clamping hole (31) in a penetrating manner, one end of the reagent bottle (90) to be cleaned, which is far away from the brush (40), extends into the corresponding groove (71).

9. A cleaning device according to any one of claims 1 to 8, characterized in that a flexible pad is provided on the inner wall of the clamping hole (31).

10. A washing device according to any one of claims 1-8, characterized in that a control knob is arranged on an outer wall of the washing chamber (10) for controlling a rotation state of the brush (40), the rotation state comprising at least one of a rotation time and a rotation speed.

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