CN220386594U - Mobilizable reagent is got and is put device and integrative equipment of cell enrichment dyeing - Google Patents

Abstract

The utility model belongs to the technical field of biological medicines, and discloses a movable reagent taking and placing device and cell enrichment and dyeing integrated equipment. The movable reagent taking and placing device provided by the utility model comprises: a reagent containing device including a reagent containing tube for storing a reagent; the vacuumizing device is connected with the reagent accommodating tube, and is used for exhausting air from the reagent accommodating tube and reducing pressure to suck the reagent into the reagent accommodating tube, and the vacuumizing device is used for ventilating and pressurizing the reagent accommodating tube to enable the reagent accommodating tube to throw the reagent; a first support for fixing the reagent accommodating tube; and the moving mechanism is used for driving the first supporting frame to move. The reagent taking and placing device provided by the utility model has the advantages that the reagent accommodating device special for storing the reagent is arranged, so that multiple times of throwing can be realized after the reagent is inhaled once, repeated reagent sucking is not needed, the scheme is simple to operate, and the reagent taking and placing efficiency is high.

Description

Mobilizable reagent is got and is put device and integrative equipment of cell enrichment dyeing

Technical Field

The utility model belongs to the field of biological medicine, and particularly relates to a movable reagent taking and placing device and cell enrichment and dyeing integrated equipment.

Background

The pharmaceutical industry and the biomedical engineering industry are two main posts of modern medicine industry, the biomedical industry consists of biotechnology industry and medicine industry, the biomedical engineering is the principle and method of comprehensive application life science and engineering science, the structure, the function and other life phenomena of human body are known in multiple levels in molecules, cells, tissues, organs and even the whole human body system from engineering perspective, and the total name of artificial materials, products, devices and system technology for disease prevention, disease treatment, human body function assistance and health care is researched.

In recent years, in the field of biomedical engineering, several emerging tumor diagnostic detection techniques, such as detection methods for circulating tumor DNA, circulating Tumor Cells (CTCs), known as liquid biopsies, have emerged. According to researches, the existence of CTC can be found in peripheral blood before solid tumor formation, so that CTC detection is very suitable for early screening and early diagnosis of malignant tumors, and CTC detection has good effects on prognosis of malignant tumors, disease progress monitoring, recurrence prediction, postoperative tiny focus monitoring of malignant tumors and design and treatment effect monitoring of targeted drug treatment, and is an advanced method for early screening and diagnosis of malignant tumors at present. The method can avoid trauma to the patient, is convenient for obtaining the test sample, can be widely applied to immunological research detection, gene research detection or microorganism detection, and can be even applied to biological chips and organoid research and development. The current mainstream operation method is to enrich and then detect the circulating tumor cells. In the detection process, the collected body fluid needs to be subjected to steps such as suction printing, enrichment, dyeing and the like, and reagents are required to be added for many times in each step, so that the types of the reagents are more. At present, when the existing reagent in the market is taken and put, the reagent is firstly sucked out and then put in, and then the reagent is sucked and put in again, so that the circulating operation is realized. The reagent in the prior art has low picking and placing efficiency.

In view of this, the present utility model has been made.

Disclosure of Invention

The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing a movable reagent taking and placing device with high reagent taking and placing efficiency and a cell enrichment and dyeing integrated device.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

in one aspect, a mobile reagent handling apparatus is provided.

Wherein, reagent is got and is put device includes:

a reagent containing device including a reagent containing tube for storing a reagent;

the vacuumizing device is connected with the reagent accommodating tube, and is used for exhausting air from the reagent accommodating tube and reducing pressure to suck the reagent into the reagent accommodating tube, and the vacuumizing device is used for ventilating and pressurizing the reagent accommodating tube to enable the reagent accommodating tube to throw the reagent;

a first support for fixing the reagent accommodating tube;

and the moving mechanism is used for driving the first supporting frame to move.

The utility model provides a reagent taking and placing device of a cell enrichment and dyeing integrated device, which not only comprises a vacuumizing device, but also comprises a reagent accommodating device for accommodating a reagent. When in use, the vacuumizing device moves to enable the pressure in the reagent accommodating tube to change so as to realize taking and placing of the reagent. The scheme is simple to operate and high in reagent taking and placing efficiency, and the reagent containing device special for storing the reagent is arranged, so that multiple times of throwing can be realized after the reagent is sucked once, repeated sucking of the reagent is not needed.

Further, the first support frame comprises a plate-shaped structure which is horizontally arranged, a fixing hole is formed in the plate-shaped structure, and the reagent accommodating tube is inserted into the fixing hole.

Further, the evacuating device is connected with the reagent holding tube through a first communication tube.

Further, the reagent holding apparatus further comprises a needle for sucking/putting the reagent;

the needle head is connected with the lower end opening of the reagent holding tube through a second communicating tube.

Further, the reagent picking and placing device further comprises: and the second supporting frame is used for fixing the needle head.

Further, the second support frame comprises a first support plate and a second support plate;

the first supporting plate is vertically arranged; the second supporting plate comprises a horizontal part and a vertical part which are mutually and vertically connected; wherein the horizontal portion is perpendicular to the first support plate, and the vertical portion is parallel to the first support plate;

the first supporting plate is fixedly connected with the vertical portion, and the needle head is fixed by mutually extruding the first supporting plate and the horizontal portion.

Further, the moving mechanism includes: the first moving mechanism is used for controlling the first support frame and the second support frame to move in the vertical direction;

and a second moving mechanism that controls the first supporting frame, the second supporting frame, and the first moving mechanism to move in the horizontal direction.

Further, the first moving mechanism comprises a first driving motor and a first lead screw connected with the first driving motor, and the first lead screw is vertically arranged;

the first support frame and the second support frame are connected with a sliding block on the first screw rod, and the first driving motor drives the first screw rod to rotate so that the first support frame and the second support frame enable the sliding block to move up and down along the first screw rod.

Further, the second moving mechanism comprises a second driving motor and a second lead screw connected with the second driving motor, and the second lead screw is horizontally arranged;

the second lead screw is provided with a fixing seat, the first moving mechanism is arranged on the fixing seat, and the second driving motor drives the second lead screw to rotate so that the fixing seat drives the first moving mechanism to horizontally move along the second lead screw.

On the other hand, still provide a cell enrichment dyeing integration equipment, cell enrichment dyeing integration equipment includes a mobilizable reagent of above-mentioned and gets puts the device.

The cell enrichment and dyeing integrated device provided by the utility model has the advantages that the reagent taking and placing device is included, so that the operation is more convenient and the efficiency is higher in the process of taking and placing the reagent.

By adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects.

1. The scheme provided by the utility model not only comprises a vacuumizing device, but also comprises a reagent accommodating device for storing the reagent. When in use, the vacuumizing device moves to enable the pressure in the reagent accommodating tube to change so as to realize taking and placing of the reagent. The scheme is simple to operate and high in reagent taking and placing efficiency, and the reagent containing device special for storing the reagent is arranged, so that multiple times of throwing can be realized after the reagent is sucked once, repeated sucking of the reagent is not needed.

2. According to the scheme provided by the utility model, the reagent taking and placing device further comprises a first supporting frame for fixing the reagent containing tube, the first supporting frame comprises a plate-shaped structure which is horizontally arranged, a fixing hole is formed in the plate-shaped structure, and the reagent containing tube is inserted into the fixing hole.

3. The solution provided by the present utility model is that the reagent holding device further comprises a needle connected to the reagent holding tube through the second communication tube and used for sucking/dispensing the reagent. The needle structure is adopted, so that the reagent is more easily sucked.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. It is evident that the drawings in the following description are only examples, from which other drawings can be obtained by a person skilled in the art without the inventive effort. In the drawings:

FIG. 1 is a schematic view of a reagent holding apparatus according to the present utility model;

FIG. 2 is a schematic view of the structure of the moving mechanism, the first supporting frame and the second supporting frame according to the present utility model;

FIG. 3 is a schematic view of a moving mechanism according to the present utility model;

in the figure:

100. a reagent taking and placing device; 101. a vacuum pumping device; 1011. a vacuum cylinder; 1012. a piston assembly; 1020. a first communication pipe; 1021. an operation panel;

110. a reagent accommodating device; 1101. a reagent accommodating tube; 1102. a first support frame; 1103. a second support frame; 1104. a second communicating pipe; 1105. a needle; 1106. a first lead screw; 1107. a second lead screw; 1108. a fixing seat; 1109. reagent holds the device.

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model, but are not intended to limit the scope of the present utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 3, the present utility model provides a movable reagent taking and placing device and a cell enrichment and staining integrated device.

Wherein, mobilizable reagent gets puts device includes:

a reagent holding apparatus 110 including a reagent holding tube 1101 for holding a reagent;

a vacuum device connected to the reagent containing tube 1101, wherein the vacuum device sucks the reagent into the reagent containing tube 1101 by sucking air from the reagent containing tube 1101 and pressurizes the reagent containing tube 1101 by ventilation to allow the reagent containing tube 1101 to be filled with the reagent;

a first support frame 1102 for fixing the reagent holding tube 1101;

the moving mechanism is used for driving the first supporting frame 1102 to move.

According to the scheme provided by the utility model, the reagent accommodating device special for storing the reagent is arranged, so that multiple times of throwing can be realized after the reagent is inhaled once, repeated reagent sucking is not needed, the scheme is simple to operate, and the reagent taking and placing efficiency is high.

The integrated cell enrichment and staining equipment comprises the movable reagent taking and placing device.

Example 1

As shown in fig. 1-2, this embodiment provides a removable reagent dispensing device.

The movable reagent taking and placing device comprises:

a reagent holding apparatus 110 including a reagent holding tube 1101 for holding a reagent;

a vacuum device connected to the reagent containing tube 1101, wherein the vacuum device sucks the reagent into the reagent containing tube 1101 by sucking air from the reagent containing tube 1101 and pressurizes the reagent containing tube 1101 by ventilation to allow the reagent containing tube 1101 to be filled with the reagent;

a first support frame 1102 for fixing the reagent holding tube 1101;

the moving mechanism is used for driving the first supporting frame 1102 to move.

The reagent taking and placing device provided by the embodiment comprises a reagent accommodating device 110 for storing a reagent, and a vacuumizing device connected with the reagent accommodating device 110, wherein the vacuumizing device enables a vacuum cylinder and a piston assembly to move relatively, so that the pressure in the reagent accommodating device 110 communicated with the vacuumizing device is reduced or increased, and the reagent is sucked into the reagent accommodating device 110 or is put out from the accommodating device. Wherein the reagent holding device 110 comprises a reagent holding tube 1101 for holding a reagent.

The reagent picking and placing device further comprises a first supporting frame 1102 for fixing the reagent holding tube 1101, and a moving mechanism for driving the first supporting frame 1102 to move. When in use, the moving mechanism is controlled to move the first supporting frame 1102 to the position of the reagent, the vacuumizing device is controlled to suck air to reduce the pressure in the reagent holding tube 1101, and the reagent is sucked into the reagent holding tube 1101; then, the moving mechanism is controlled to move continuously, the first supporting frame 1102 is moved to the region where the reagent needs to be put in, and the vacuumizing device is controlled to ventilate and pressurize so that the pressure in the reagent accommodating tube 1101 becomes large, and the reagent is put in.

The scheme of the embodiment further comprises: the evacuating device is connected to the reagent holding tube 1101 through a first communication tube.

As shown in fig. 3, the vacuum pumping apparatus 101 provided in this embodiment includes a vacuum cylinder 1011 and a piston assembly 1012 provided in the vacuum cylinder 1011 to move along the wall of the vacuum cylinder 1011. Wherein, the vacuum cylinder 1011 is connected with the reagent accommodating apparatus 110 through the first communication pipe 1020. Specifically, the vacuumizing device 101 is mounted on an operation board 1021, and a through hole through which the first communication pipe 1020 passes is provided on the operation board 1021. The through holes may be provided only one, and the plurality of first communication pipes may pass through the same through hole. The device also can be provided with a plurality of through holes, the number of the through holes is not less than that of the vacuum cylinders, and the first communication pipe penetrates through two ends of the through holes to be respectively connected with the vacuum cylinders and the reagent containing device. In this case, the reagent container 110 may be disposed above the evacuation device 101, and the reagent container 110 may be disposed below the evacuation device 101. When the reagent accommodating apparatus 110 is disposed below the vacuum pumping apparatus 101, one end of the first communication pipe 1020 is connected to the vacuum cylinder 1011 of the vacuum pumping apparatus 101, and then extends to the lower side through the through hole of the operation panel 1021, and the other end of the first communication pipe 1020 is connected to the reagent accommodating apparatus 110. More specifically, the other end of the first communication pipe 1020 is connected to an upper end opening of the reagent containing tube 1101 of the reagent containing apparatus.

The scheme of the embodiment further comprises: the first support frame 1102 includes a horizontally disposed plate-like structure provided with fixing holes in which the reagent holding tubes 1101 are inserted.

The first support frame 1102 provided in this embodiment includes a horizontally disposed plate-like structure provided with fixing holes for inserting and fixing the reagent holding tubes 1101.

In a further aspect of this embodiment, a plurality of fixing holes for fixing the reagent holding tube 1101 are provided on the plate-like structure. Specifically, the number of the fixing holes is consistent with the number of the vacuum cylinders of the vacuumizing device.

In a further version of this embodiment, at least one edge of the plate-like structure is provided with an upward or downward turned-up edge, thereby making the reagent holding tube 1101 more stable during movement.

The scheme of the embodiment further comprises: the reagent holding apparatus 110 further comprises a needle 1105 for sucking/dispensing the reagent;

the needle 1105 is connected to the lower end opening of the reagent holding tube 1101 through the second communication tube 1104.

The reagent picking and placing device further comprises: a needle 1105 for aspirating/dispensing the reagent. The needle 1105 is made of a metal material, and one end of the needle 1105 is downward, and the other end is connected to the lower end opening of the reagent holding tube 1101 through the second communication tube 1104. In the solution of the present embodiment, the second communication pipe 1104 is a rubber hose. It should be noted that, in the solution provided in this embodiment, a plurality of needles 1105 are provided, and the number of needles 1105 is identical to the number of fixing holes for installing the reagent holding tube 1101.

The reagent picking and placing device further comprises: a second support 1103 for securing the needle 1105.

Specifically, the second support frame 1103 includes a first support plate and a second support plate;

the first supporting plate is vertically arranged; the second supporting plate comprises a horizontal part and a vertical part which are mutually and vertically connected; wherein the horizontal portion is perpendicular to the first support plate, and the vertical portion is parallel to the first support plate;

the first supporting plate is fixedly connected with the vertical portion, and the needle head is fixed by mutually extruding the first supporting plate and the horizontal portion.

The following describes the above scheme in detail:

the second support frame 1103 includes a first support plate and a second support plate. The direction of the first support plate is parallel to the direction of the reagent holding tube 1101, that is, the first support plate is disposed in the vertical direction. The second supporting plate comprises a horizontal part and a vertical part which are mutually and vertically connected, that is to say, the second supporting plate is formed by bending a metal plate-shaped structure, and the bending angle is ninety degrees. The second support plate includes a horizontal portion perpendicular to the first support plate and a vertical portion parallel to the first support plate. The first support plate and the vertical portion are provided with fixing holes, the needle 1105 is arranged between the first support plate and the horizontal portion, and the needle 1105 is fixed on the second support frame 1103 by sequentially penetrating through the fixing holes in the vertical portion and the first support plate through screws. In order to secure the needle 1105 firmly, a fixing hole on the vertical portion is provided at a region near the horizontal portion.

In a further version of this embodiment, the area of the needle 1105 in contact with the first support plate and the upright is provided with a protective structure. Since the needle 1105, the first support plate and the second support plate are all metal members in this embodiment, in order to fix the needle 1105 more stably between the first support plate and the second support plate, a protective structure is provided on the outer periphery of the needle 1105, and the protective structure may be a flexible material having a shape-variable or a material capable of fixing the needle 1105 more firmly, such as an adhesive tape.

The scheme of the embodiment further comprises: the moving mechanism includes: a first moving mechanism that controls the first support frame 1102 and the second support frame 1103 to move in the vertical direction;

and a second moving mechanism that controls the first support frame 1102, the second support frame 1103, and the first moving mechanism to move in the horizontal direction.

Specifically, the first moving mechanism comprises a first driving motor and a first lead screw 1106 connected with the first driving motor, and the first lead screw 1106 is vertically arranged;

the first support frame 1102 and the second support frame 1103 are connected with a sliding block on a first lead screw 1106, and the first driving motor drives the first lead screw 1106 to rotate so that the first support frame 1102 and the second support frame 1103 move up and down along the first lead screw 1106 along with the sliding block.

The second moving mechanism comprises a second driving motor and a second lead screw 1107 connected with the second driving motor, and the second lead screw 1107 is horizontally arranged;

a fixing seat 1108 is mounted on the second screw rod 1107, the first moving mechanism is mounted on the fixing seat, and the second driving motor drives the second screw rod to rotate so that the fixing seat drives the first moving mechanism to horizontally move along the second screw rod.

The following describes the above scheme in detail:

the moving mechanism includes: a first moving mechanism that controls the first support frame 1102 and the second support frame 1103 to move in the vertical direction. Specifically, the first moving mechanism includes a first driving motor, a first lead screw 1106 connected to the first driving motor, and a slider. The first lead screw 1106 is vertically arranged, and the sliding block is arranged on the first lead screw 1106. The first support frame and the second support frame are connected with a sliding block on the first screw rod. When the sliding block is used, the first driving motor drives the first screw rod to rotate, and the first supporting frame and the second supporting frame move up and down along the first screw rod along with the sliding block. More specifically, the first driving motor rotates the first screw 1106 in a forward and reverse direction, and thus moves the first support bracket 1102 and the second support bracket 1103 up or down along the first screw 1106.

The movement mechanism further includes a second movement mechanism. Specifically, the second moving mechanism includes a second driving motor and a second screw 1107 connected to the second driving motor. The second screw 1107 is provided with a fixing seat 1108, the first screw 1106 is arranged on a bracket, and the bracket is connected with the fixing seat. The second driving motor drives the second screw rod 1107 to rotate, so that the first screw rod 1106 drives the first supporting frame 1102 and the second supporting frame 1103 to horizontally move along the second screw rod 1107.

When in use, the first driving motor of the first moving mechanism drives the second screw rod to rotate in the forward and backward directions, so that the first supporting frame 1102 and the second supporting frame 1103 move up and down. When the reagent is sucked, the first lead screw 1106 is controlled to rotate so that the first support frame and the second support frame move downwards, the needle 1105 extends downwards into the reagent accommodating device 1109 to suck the reagent, after the reagent is sucked, the first lead screw 1106 is controlled to move reversely, the first support frame and the second support frame move upwards, when the needle 1105 leaves the reagent accommodating device 1109, the first driving motor stops moving, the second driving motor starts moving, the first support frame, the second support frame and the first lead screw 1106 move horizontally together, the vacuum pumping device stops moving in a region where the reagent needs to be put, and the reagent is put. After reagent is put in, the second driving motor is controlled to reversely rotate, and the first supporting frame, the second supporting frame and the first lead screw 1106 are controlled to reversely horizontally move and reset together.

In the solution of this embodiment, since a plurality of sets of vacuum-pumping devices are provided, a number of reagent storage devices corresponding to the vacuum-pumping devices are also provided. Therefore, when in use, the taking and placing of multiple groups of reagents can be realized at one time. The scheme further increases the taking and placing efficiency of the reagent.

Example two

The embodiment provides a cell enrichment dyeing integrated device.

The integrated device provided in this embodiment includes the reagent picking and placing device described in the above embodiment. The reagent taking and placing device is used for adding the required reagent into the corresponding device in the process of enriching cells and the process of staining cells. The scheme is simple to operate and high in reagent taking and placing efficiency.

The foregoing description is only illustrative of the preferred embodiment of the present utility model, and is not to be construed as limiting the utility model, but is to be construed as limiting the utility model to any and all simple modifications, equivalent variations and adaptations of the embodiments described above, which are within the scope of the utility model, may be made by those skilled in the art without departing from the scope of the utility model.

Claims (10)

1. A mobile reagent picking and placing device, characterized in that the mobile reagent picking and placing device comprises:

a reagent containing device including a reagent containing tube for storing a reagent;

the vacuumizing device is connected with the reagent accommodating tube, and is used for exhausting air from the reagent accommodating tube and reducing pressure to suck the reagent into the reagent accommodating tube, and the vacuumizing device is used for ventilating and pressurizing the reagent accommodating tube to enable the reagent accommodating tube to throw the reagent;

a first support for fixing the reagent accommodating tube;

and the moving mechanism is used for driving the first supporting frame to move.

2. The movable reagent picking and placing device according to claim 1, wherein the first supporting frame comprises a horizontally arranged plate-shaped structure, a fixing hole is formed in the plate-shaped structure, and the reagent accommodating tube is inserted into the fixing hole.

3. A movable reagent dispensing device according to claim 1 or claim 2, wherein the evacuation means is connected to the reagent receiving tube by a first communication tube.

4. A mobile reagent dispensing device according to claim 3, wherein the reagent holding means further comprises a needle for aspirating/dispensing the reagent;

the needle head is connected with the lower end opening of the reagent holding tube through a second communicating tube.

5. The mobile reagent dispensing device of claim 4, further comprising: and the second supporting frame is used for fixing the needle head.

6. A mobile reagent dispensing device according to claim 5, wherein,

the second support frame comprises a first support plate and a second support plate;

the first supporting plate is vertically arranged; the second supporting plate comprises a horizontal part and a vertical part which are mutually and vertically connected; wherein the horizontal portion is perpendicular to the first support plate, and the vertical portion is parallel to the first support plate;

the first supporting plate is fixedly connected with the vertical portion, and the needle head is fixed by mutually extruding the first supporting plate and the horizontal portion.

7. The mobile reagent dispensing device of claim 5, wherein the moving mechanism comprises: the first moving mechanism is used for controlling the first support frame and the second support frame to move in the vertical direction;

and a second moving mechanism that controls the first supporting frame, the second supporting frame, and the first moving mechanism to move in the horizontal direction.

8. The movable reagent picking and placing device according to claim 7, wherein the first moving mechanism comprises a first driving motor and a first screw rod connected with the first driving motor, and the first screw rod is vertically arranged;

the first support frame and the second support frame are connected with a sliding block on the first screw rod, and the first driving motor drives the first screw rod to rotate so that the first support frame and the second support frame move up and down along the first screw rod along with the sliding block.

9. The movable reagent picking and placing device according to claim 7, wherein the second moving mechanism comprises a second driving motor and a second lead screw connected with the second driving motor, and the second lead screw is horizontally arranged;

the second lead screw is provided with a fixing seat, the first moving mechanism is arranged on the fixing seat, and the second driving motor drives the second lead screw to rotate so that the fixing seat drives the first moving mechanism to horizontally move along the second lead screw.

10. A cell enrichment staining apparatus comprising a mobile reagent handling device according to any of claims 1 to 9.