CN219237977U - Frozen section tissue operation device - Google Patents

Abstract

The utility model discloses a frozen section tissue running device, which aims to solve the problem that tissue autolysis can occur when frozen section tissues are placed in normal temperature for too long in the field of medical detection equipment, and comprises a box body, wherein the box body is provided with a refrigerating layer, a first cleaning layer and a second cleaning layer; the drying mechanism comprises an air inlet fan and an exhaust fan which are respectively arranged at two opposite sides of the first cleaning layer; the sterilizing mechanism comprises a plurality of ultraviolet lamps, and the ultraviolet lamps are arranged on the second cleaning layer; the freezing board, the freezing board is equipped with the stock chest, the stock chest is used for depositing frozen section tissue, the freezing board can insert the cold-stored layer first clearance layer and second clearance layer.

Description

Frozen section tissue operation device

Technical Field

The utility model relates to the field of medical detection equipment, in particular to a frozen section tissue running device.

Background

Pathological frozen tissue sections are a method in which the tissue is rapidly cooled to a certain hardness under low temperature conditions and then sectioned. By observing the slices, the case situation can be detected quickly.

In the existing pathological frozen tissue sections, the diagnostician generally draws materials and places the materials on paper or plastic plates to be marked manually, but in the mode, tissue autolysis can occur when the materials are placed at normal temperature for too long, so that the examination of the tissues is not facilitated, and the diagnosis accuracy is affected.

Disclosure of Invention

The utility model provides a frozen section tissue running device, which aims at solving at least one of the technical problems existing in the prior art.

The technical scheme of the utility model is a frozen section tissue running device, which comprises:

the box body is provided with a refrigerating layer, a first cleaning layer and a second cleaning layer;

the drying mechanism comprises an air inlet fan and an exhaust fan which are respectively arranged at two opposite sides of the first cleaning layer;

the sterilizing mechanism comprises a plurality of ultraviolet lamps, and the ultraviolet lamps are arranged on the second cleaning layer;

the freezing board, the freezing board is equipped with the stock chest, the stock chest is used for depositing frozen section tissue, the freezing board can insert the cold-stored layer first clearance layer and second clearance layer.

Further, the method further comprises the following steps:

the first rotating disc is arranged on the side walls of the first cleaning layer and the second cleaning layer, the air inlet fan is arranged on the first rotating disc, and the first rotating disc can rotate relatively to enable the air inlet fan and the ultraviolet lamp to alternately face the first cleaning layer and the second cleaning layer;

the second rotating disc is arranged on the side wall of the first cleaning layer and the side wall of the second cleaning layer, the first rotating disc and the second rotating disc can be arranged relatively, the exhaust fan and the ultraviolet lamp are arranged on the first rotating disc, and the second rotating disc can rotate relatively, so that the exhaust fan and the ultraviolet lamp alternately face the first cleaning layer and the second cleaning layer.

Further, the first rotating disk and the second rotating disk are provided in plural, and the plural first rotating disks and the plural second rotating disks are provided in the front-rear direction.

Further, the first rotating disc is provided with an air inlet, the air inlet is used for communicating the outside with the air inlet fan, the second rotating disc is provided with an air outlet, and the air outlet is used for communicating the outside with the air outlet fan.

Further, the box is provided with a flow pipeline, the flow pipeline is arranged around the side wall of the box, the flow pipeline is communicated with the air inlet fan and the air exhaust fan, and the flow pipeline is provided with a filtering piece.

Further, the freeze plate is made of a metal material.

Further, the case is provided with a guide groove, and the freezing plate can be inserted into the case along the guide groove.

Further, the freezing plate is provided with marks, and the marks are sequentially arranged along the stock tank.

Further, the box door is used for closing the box body.

Further, the refrigerating layer is provided with one or more.

The beneficial effects of the utility model are as follows.

1. The frozen slice tissue is stored on the freezing plate, so that the frozen slice tissue can be kept in a low-temperature state, and the dissolution probability is reduced; the refrigerating plate is placed in the refrigerating layer, so that the preservation time can be further prolonged; after the use, the freezing plate can be placed in the first cleaning layer and the second cleaning layer for cleaning, and is firstly placed in the drying mechanism of the first cleaning layer, residual liquid on the freezing plate is discharged cleanly through the effect of the exhaust fan of the air inlet fan, and then the freezing plate is placed in the second cleaning layer, and substances such as bacteria which are difficult to clean by the drying mechanism are cleaned cleanly through the ultraviolet lamp of the sterilizing mechanism, so that the cleaning of the freezing plate is further guaranteed.

Drawings

FIG. 1 is a schematic view of the general structure of a frozen section tissue manipulation device according to an embodiment of the present utility model;

FIG. 2 is an enlarged partial schematic view of portion A of FIG. 1;

FIG. 3 is a schematic view of a first rotating disc embodying the present utility model;

FIG. 4 is a schematic elevational view of a frozen section tissue manipulation device according to an embodiment of the utility model;

fig. 5 is a schematic view showing the structure of a cryopanel according to an embodiment of the present utility model.

Reference numerals:

the refrigerator comprises a box body 100, a refrigerating layer 110, a first cleaning layer 120, a second cleaning layer 130 and a guide groove 140;

a drying mechanism 200;

an ultraviolet lamp 300;

a freeze plate 400 and a stock tank 410;

a first rotating disc 500;

a second rotating disk 600;

a door 700.

Detailed Description

The following description will describe several embodiments of the present utility model, including the embodiments corresponding to the accompanying drawings, it being understood that the drawings are for aiding in the understanding of the technical features and technical solutions of the present utility model, and should not be construed as limiting the scope of the present utility model.

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, aspects, and effects of the present utility model. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other.

It should be noted that, unless explicitly defined otherwise, when a certain feature is referred to as being "fixed," "connected," or "mounted" on another feature, it may be directly fixed or connected to the other feature or may be indirectly fixed or connected to the other feature, and the terms such as "fixed," "connected," or "mounted" should be interpreted broadly, so that those skilled in the art can reasonably determine the specific meaning of the terms in the present utility model in combination with the specific contents of the technical scheme.

It should be noted that, the description of the orientation or positional relationship indicated by the upper, lower, left, right, top, bottom, front, rear, inner, outer, etc. used in the present utility model is based on the orientation or positional relationship of the drawings or the embodiments, only for convenience of describing the present utility model and simplifying the description, and does not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in the specific orientation, and thus should not be construed as limiting the present utility model.

It is noted that the term "and/or" as used in the present utility model includes any combination of one or more of the listed items, a plurality of means one or more, a plurality of means two or more, greater than, less than, exceeding, etc. are understood to exclude this number, and above, below, within, etc. are understood to include this number.

It should be noted that, if the first and second descriptions are only used for distinguishing technical features in the present utility model, the description should not be construed as indicating or implying relative importance or implying the number of the indicated technical features or implying the precedence relationship of the indicated technical features.

It is to be understood that all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art unless explicitly defined otherwise. The terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1-5, a basic embodiment of a first aspect of the present utility model provides a frozen section tissue manipulation device comprising:

the refrigerator comprises a box body 100, wherein the box body 100 is provided with a refrigerating layer 110, a first cleaning layer 120 and a second cleaning layer 130;

the drying mechanism 200, the drying mechanism 200 comprises an air inlet fan and an exhaust fan, and the air inlet fan and the exhaust fan are respectively arranged at two opposite sides of the first cleaning layer 120;

the sterilizing mechanism comprises a plurality of ultraviolet lamps 300, and the ultraviolet lamps 300 are arranged on the second cleaning layer 130;

the freezing plate 400, the freezing plate 400 is provided with a stock tank 410, the stock tank 410 is used for storing frozen sliced tissues, and the freezing plate 400 can be inserted into the refrigerating layer 110, the first cleaning layer 120 and the second cleaning layer 130.

In the frozen section tissue running device according to the basic embodiment of the first aspect of the present utility model, frozen section tissue is stored on the freezing plate 400, so that the frozen section tissue can be kept in a low temperature state, and the dissolution probability is reduced; placing the cryopanel 400 within the refrigeration layer 110 can further extend shelf life; the used freezing plate 400 can be placed in the first cleaning layer 120 and the second cleaning layer 130 for cleaning, firstly placed in the drying mechanism 200 of the first cleaning layer 120, residual liquid on the freezing plate 400 is discharged cleanly under the action of an exhaust fan of an air inlet fan, then the freezing plate 400 is placed in the second cleaning layer 130, and substances such as bacteria which are difficult to clean by the drying mechanism 200 are cleaned cleanly through the ultraviolet lamp 300 of the sterilizing mechanism, so that the cleaning of the freezing plate 400 is further ensured.

A refrigerator may be provided in the refrigerating layer 110, and the internal temperature in the refrigerating layer 110 can be reduced.

On the opposite side, it is understood that a quadrilateral is not located adjacent two sides.

In some embodiments, further comprising:

the first rotating disc 500 is arranged on the side walls of the first cleaning layer 120 and the second cleaning layer 130, the air inlet fan ultraviolet lamp 300 is arranged on the first rotating disc 500, and the first rotating disc 500 can rotate relatively, so that the air inlet fan and the ultraviolet lamp 300 alternately face the first cleaning layer 120 and the second cleaning layer 130;

the second rotating disc 600 is arranged on the side walls of the first cleaning layer 120 and the second cleaning layer 130, the first rotating disc 500 and the second rotating disc 600 can be arranged in a disc-opposite mode, the exhaust fan and the ultraviolet lamp 300 are arranged on the first rotating disc 500, and the second rotating disc 600 can rotate relatively, so that the exhaust fan and the ultraviolet lamp 300 alternately face the first cleaning layer 120 and the second cleaning layer 130.

Under this setting, first cleaning layer 120 and second cleaning layer 130 are adjacent to be set up, first rotating disk 500 and second rotating disk 600 locate the lateral wall on first cleaning layer 120 and second cleaning layer 130, can make air inlet fan and ultraviolet lamp 300 exchange position through driving first rotating disk 500, drive second rotating disk 600 can make air outlet fan and ultraviolet lamp 300 exchange position, make stoving mechanism 200 and sterilization mechanism exchange position, realize the conversion of first cleaning layer 120 and second cleaning layer 130 function, do not need the manual replacement freezing board 400's position, convenient to use.

The first rotating disc 500 and the second rotating disc 600 are similar in structure.

In some embodiments, the first rotating disk 500 or the second rotating disk 600 may be driven to rotate by a motor.

In some embodiments, the first and second rotating discs 500 and 600 are provided in plurality, and the plurality of first and second rotating discs 500 and 600 are provided in the front-rear direction. Through setting up a plurality of rolling discs, make freeze plate 400 can evenly dry and shine, the clearance effect is good.

In some embodiments, in the first embodiment, the first rotary disk 500 is provided with an air inlet for communicating the outside with the air intake fan, and the second rotary disk 600 is provided with an air outlet for communicating the outside with the air exhaust fan. The air inlet, the air inlet fan, the inner cavity of the box body 100, the air exhaust fan and the air exhaust port are sequentially communicated, so that residual liquid on the freezing plate 400 can be discharged out of the box body 100; further, the filter structure is provided on the air inlet and the air outlet, so that impurities can be prevented from entering the box 100 or being discharged from the box 100, and environmental pollution can be prevented.

In some embodiments, in the second embodiment, the case 100 is provided with a flow duct, the flow duct is disposed around a side wall of the case 100, the flow duct communicates with the intake fan and the exhaust fan, and the flow duct is provided with a filter. Through the sequential communication of air inlet fan, box 100 inner chamber, air discharge fan, runner pipe, inside gas circulation, through filter with impurity filtration, make the residue on the freeze plate 400 can discharge cleanly.

The filter member or filter structure may be a pleated filter cartridge or an activated carbon filter cartridge. The folding filter element or the polypropylene composite filter membrane is adopted as a main filter material, the filter element is an advanced fixed deep filter element, and the nominal precision range of the filter can be from 0.1 mu m to 60 mu m. The active carbon filter core is formed by adding active carbon particles into a binder, heating and sintering, has the dual functions of filtering and purifying, and has the filter core precision of 10 micrometers nominal filtering precision.

In some embodiments, the freeze plate 400 is made of a metallic material. The metal material can be copper, iron, aluminum, stainless steel and the like, has higher specific heat capacity, is not easy to heat up, and is favorable for preserving heat.

In some embodiments, the case 100 is provided with a guide groove 140, and the freezing plate 400 can be inserted into the case 100 along the guide groove 140. Through the insertion of the guide groove 140, the user can conveniently position the freezing plate 400, and the use is convenient.

In some embodiments, the freeze plate 400 is provided with indicia that are disposed in sequence along the stock bin 410. By identifying, it is quickly recognized what category the sample corresponding to the reservoir 410 belongs to.

In some embodiments, a door 700 is also included, the door 700 being used to enclose the cabinet 100. The refrigerator body 100 can be closed or opened by the refrigerator door 700, and the inside and outside of the refrigerator body are communicated in a closing manner, so that heat is dissipated, and the refrigerator body is convenient to take out or put in the refrigerator plate 400 when opened.

In some embodiments, the refrigeration layer 110 is provided with one or more. By providing a plurality of refrigerated layers 110, a large number of samples can be placed simultaneously and taken out as needed, and the device is suitable for large-scale detection.

It is noted that terms like "one embodiment," "some embodiments," "base embodiments," "extended embodiments," and the like may be used throughout this specification to describe several embodiments of the utility model, as a particular feature, structure, material, or characteristic of the several embodiments may be combined without departing from the principles and spirit of the present utility model.

While there has been shown and described what is considered to be certain embodiments of the present utility model, it is to be understood that the utility model is not limited to the above-described embodiments, but is to be accorded the widest scope consistent with the principles and novel features of the present utility model.

Claims (10)

1. A frozen section tissue manipulation device, comprising:

the refrigerator comprises a refrigerator body (100), wherein the refrigerator body (100) is provided with a refrigerating layer (110), a first cleaning layer (120) and a second cleaning layer (130);

the drying mechanism (200) comprises an air inlet fan and an exhaust fan, and the air inlet fan and the exhaust fan are respectively arranged at two opposite sides of the first cleaning layer (120);

the sterilizing mechanism comprises a plurality of ultraviolet lamps (300), and the ultraviolet lamps (300) are arranged on the second cleaning layer (130);

the freezing board (400), freezing board (400) are equipped with stock chest (410), stock chest (410) are used for depositing frozen section tissue, freezing board (400) can insert refrigerating layer (110), first clearance layer (120) and second clearance layer (130).

2. The frozen section tissue performance device of claim 1, further comprising:

the first rotating disc (500) is arranged on the side walls of the first cleaning layer (120) and the second cleaning layer (130), the air inlet fan is arranged on the first rotating disc (500) by the ultraviolet lamp (300), and the first rotating disc (500) can rotate relatively to enable the air inlet fan and the ultraviolet lamp (300) to alternately face the first cleaning layer (120) and the second cleaning layer (130);

the second rotating disc (600) is arranged on the side wall of the first cleaning layer (120) and the side wall of the second cleaning layer (130), the first rotating disc (500) and the second rotating disc (600) can be arranged in a disc-opposite mode, the exhaust fan and the ultraviolet lamp (300) are arranged on the first rotating disc (500), and the second rotating disc (600) can rotate relatively, so that the exhaust fan and the ultraviolet lamp (300) alternately face the first cleaning layer (120) and the second cleaning layer (130).

3. Frozen section tissue manipulation device according to claim 2, characterized in that the first rotary disk (500) and the second rotary disk (600) are provided in plurality, and the plurality of first rotary disks (500) and the plurality of second rotary disks (600) are arranged in the front-rear direction.

4. Frozen section tissue running device according to claim 2, characterized in that the first rotary disk (500) is provided with an air inlet for communication between the outside and the air inlet fan, and the second rotary disk (600) is provided with an air outlet for communication between the outside and the air outlet fan.

5. Frozen section tissue running device according to claim 1, characterized in that the box (100) is provided with a flow duct which is arranged around the side wall of the box (100), which flow duct communicates the inlet fan and the outlet fan, which flow duct is provided with a filter.

6. Frozen section tissue manipulation device according to claim 1, characterized in that the freezing plate (400) is made of a metallic material.

7. Frozen section tissue manipulation device according to claim 1, characterized in that the box (100) is provided with a guiding groove (140), along which guiding groove (140) the freezing plate (400) can be inserted into the box (100).

8. Frozen section tissue manipulation device according to claim 1, characterized in that the freezing plate (400) is provided with markers which are arranged in sequence along the stock trough (410).

9. The frozen section tissue manipulation device according to claim 1, further comprising a door (700), the door (700) being adapted to enclose the housing (100).

10. Frozen section tissue manipulation device according to claim 1, characterized in that the refrigerated layer (110) is provided with one or more.

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