CN212110881U

CN212110881U - Device is hatched to hypertension detection sample

Info

Publication number: CN212110881U
Application number: CN202020701179.4U
Authority: CN
Inventors: 李忠政; 黄旺情; 李星; 绕治理; 孙坤
Original assignee: Guizhou Kingmed Diagnostics Inspection Center Co ltd
Current assignee: Guizhou Kingmed Diagnostics Inspection Center Co ltd
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2020-12-08
Anticipated expiration: 2030-04-30

Abstract

The utility model discloses a device is hatched to hypertension detection sample belongs to medical detection equipment technical field. It includes: the upper end of the incubator is open, a first incubation cavity and a second incubation cavity are arranged in the incubator, and a sealing cover used for covering the incubator is arranged at the upper end of the incubator; the sample incubation frame is used for placing an incubation tube filled with a detection sample and is respectively arranged in the first incubation cavity and the second incubation cavity; the blending device is respectively arranged in the first incubation cavity and the second incubation cavity and used for shaking the sample incubation frame; and the temperature adjusting devices are respectively arranged in the first incubation cavity and the second incubation cavity and are used for respectively controlling the temperature in the first incubation cavity and the temperature in the second incubation cavity to be a first temperature and a second temperature. The utility model provides a device is hatched to hypertension detection sample can provide the environment of hatching of the suitable temperature of two kinds of differences, but effective control sample reaction temperature just improves the accuracy of testing result.

Description

Device is hatched to hypertension detection sample

Technical Field

The utility model relates to a medical science check out test set technical field especially relates to a device is hatched to hypertension detection sample.

Background

Secondary hypertension currently accounts for 40% of hypertensive disorders, and is mainly caused by lesions in some organs and systems of the body. In addition, at present, serological examination is one of the main means for monitoring secondary hypertension, which feeds back the pathogenesis of the secondary hypertension by detecting the concentrations of angiotensin II, aldosterone, renin or renin activity, and the detection of renin activity is more important, and can directly feed back the conversion of angiotensin II and the increase of aldosterone secretion. The method for detecting the activity of the renin mainly comprises the steps of adding a certain amount of sample treatment solution and an enzyme inhibitor into a detection sample, respectively carrying out two times of incubation treatment under two constant temperature environments, for example, carrying out the incubation treatment under the constant temperature environments of 37 ℃ and 4 ℃ respectively, and then respectively measuring the angiotensin I under the conditions of 37 ℃ and 4 ℃ by using a corresponding detection kit. However, currently, no special equipment for incubation treatment of renin activity detection exists, in the detection process, a detection sample can only be placed in a waste sample warehouse or a reagent warehouse at 2-8 ℃, the space of the cold warehouse is large, workers often go in and out, and the temperature cannot be effectively controlled to reach a constant temperature state, so that the repeatability of a detection result is low. Furthermore, there are no two different incubation devices with suitable temperatures in the incubation process, for example, there is no 4 ℃ sample incubation device, so that the sample needs to be added into the elisa plate in advance to perform 4 ℃ constant temperature incubation for 90min, which may lead to a sample reaction in advance, resulting in a higher detection result. Therefore, there is a need for an incubation device that can provide two different incubation environments with suitable temperatures, effectively control the reaction temperature of the sample, and improve the accuracy of the detection result.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art at least one not enough, provide one kind and can provide the suitable temperature's of two kinds of differences environment of hatching, but effective control sample reaction temperature just improves the hypertension detection sample incubation device of the accuracy of testing result.

The utility model provides an above-mentioned technical problem's technical scheme as follows: a hypertensive test sample incubation device, comprising:

the upper end of the incubator is open, a first incubation cavity and a second incubation cavity are arranged in the incubator, and a sealing cover used for covering the opening of the incubator and sealing the incubator is arranged at the upper end of the incubator;

the first sample incubation frame is used for placing an incubation tube filled with a detection sample and is arranged in the first incubation cavity, and a plurality of test tube placing holes I used for placing the incubation tube filled with the detection sample are arranged on the first sample incubation frame at intervals;

the first blending device is arranged in the first incubation cavity, the first sample incubation frame is arranged on the first blending device in a suspended mode and supported by the first blending device, and the first blending device is used for shaking the first sample incubation frame to enable the detection samples in the incubation tubes arranged on the first sample incubation frame to be blended uniformly;

a first temperature adjusting device, installed in the first incubation cavity, for adjusting the temperature in the first incubation cavity and controlling the temperature in the first incubation cavity to a first temperature;

the second sample incubation frame is used for placing an incubation tube filled with a detection sample and is arranged in the second incubation cavity, and a plurality of test tube placing holes II used for placing the incubation tube filled with the detection sample are arranged on the second sample incubation frame at intervals;

the second blending device is installed in the second incubation cavity, the second sample incubation frame is installed on the second blending device in a suspended mode and supported by the second blending device, and the second blending device is used for shaking the second sample incubation frame to enable the detection samples in the incubation tubes installed on the second sample incubation frame to be blended uniformly;

and the second temperature regulating device is arranged in the second incubation cavity and is used for regulating the temperature in the second incubation cavity and controlling the temperature in the second incubation cavity to be at a second temperature.

The utility model has the advantages that: the utility model discloses in through be equipped with first hatching cavity and second hatching cavity in the incubator, and install respectively in first hatching cavity and second hatching cavity and be used for right the temperature regulation apparatus that the temperature in first hatching cavity and the second hatching cavity was adjusted, will the temperature control in first hatching cavity and the second hatching cavity is in different temperature environment, can make first hatching cavity and second hatching cavity have two kinds of different temperature environment, be convenient for realize carrying out twice incubation under two settlement constant temperature environment respectively to the hypertension detection sample in same equipment; further, install respectively in first cavity and the second of hatching and hatch the cavity and be used for installing the mixing device of the intraductal detection sample mixing of hatching on the frame is hatched to first sample is favorable to making the intraductal detection sample misce bene of hatching, improves detection efficiency, and does not need artifical mixing, reduces artificial intervention and reduces occupational exposure risk. Therefore, the utility model provides a device is hatched to hypertension detection sample can provide the environment of hatching of the suitable temperature of two kinds of differences, but effective control sample reaction temperature just improves the accuracy of testing result.

In addition, on the basis of the technical scheme, the utility model discloses can also make following improvement, can also have following additional technical feature.

According to the utility model discloses an embodiment, be equipped with the incubation cavity in the incubator, the device is hatched to the blood pressure test sample still includes:

the heat insulation plate is connected in the incubation cavity and isolates the incubation cavity to form the first incubation cavity and the second incubation cavity.

This embodiment will through the thermal-insulated board will it keeps apart to form to incubate the cavity first incubate the cavity with the cavity is hatched to the second, and the effect that the thermal-insulated can be realized to the thermal-insulated board, reduce first incubation cavity with heat exchange between the cavity is hatched to the second to reduce first incubation cavity with influence between the cavity is hatched to the second, be convenient for with first incubation cavity with the temperature control of cavity is hatched to the second is in a constant temperature, is favorable to realizing carrying out twice incubation processing under two constant temperature environment that set for respectively to the hypertension detection sample.

According to an embodiment of the present invention, the first sample incubation rack and the first blending device are provided in plurality, the plurality of first sample incubation racks and the first blending device are installed in the first incubation cavity at intervals, and the plurality of first sample incubation racks are respectively installed at the upper end of the first blending device;

the second sample incubation frame and the second blending device are provided with a plurality of second sample incubation frames and the second blending device are installed in the second incubation cavity at intervals, and the second sample incubation frames are installed at the upper end of the second blending device respectively.

This embodiment through be equipped with a plurality of first samples in the first cavity of hatching and hatch the frame with first mixing device, be equipped with a plurality of second samples in the cavity is hatched to the second and hatch the frame with second mixing device is convenient for place more detection sample respectively in first cavity of hatching and the cavity is hatched to the second and hatches the pipe, once can hatch a plurality of detection samples, improves detection efficiency.

According to an embodiment of the present invention, the first sample incubation rack comprises:

the first supporting plate is connected to the upper end of the first blending device;

the first closed-loop enclosure frame is connected to the upper side face of the first support plate, a first accommodating cavity is defined between the first closed-loop enclosure frame and the first support plate, and a plurality of first through holes are formed in a side plate of the first closed-loop enclosure frame;

the first test tube placing plate is installed at the upper end of the first closed-loop surrounding frame and provided with a plurality of first test tube placing holes for placing the incubation tubes filled with the detection samples;

the second sample incubation rack comprises:

the second supporting plate is connected to the upper end of the second blending device;

a second closed-loop enclosure frame connected to the upper side surface of the second support plate, wherein a second accommodating cavity is defined between the second closed-loop enclosure frame and the second support plate, and a plurality of second through holes are formed in a side plate of the second closed-loop enclosure frame;

and the test tube placing plate II is installed at the upper end of the closed loop surrounding frame II, and a plurality of test tube placing holes II used for placing the incubation tubes filled with the detection samples are formed in the test tube placing plate II.

In the embodiment, a first accommodating cavity is defined between the first closed-loop surrounding frame and the first supporting plate, so that the first test tube placing plate is convenient to mount at the upper end of the first closed-loop surrounding frame; in addition, a second accommodating cavity is formed between the second closed-loop enclosing frame and the second supporting plate in a limiting mode, and the second test tube placing plate is convenient to install at the upper end of the second closed-loop enclosing frame.

According to the utility model discloses an embodiment, sealed lid includes first sealed lid and the sealed lid of second, first sealed lid can be covered and is established the top of first hatching cavity and will the first cavity seal of hatching, the sealed lid of second can be covered and is established the top of cavity and will be hatched the cavity seal to the second.

The first cavity of hatching of this embodiment seals through first sealed lid, and the cavity is sealed through the sealed lid of second to the cavity is hatched to the second, can realize opening first cavity of hatching and the cavity is hatched to the second respectively, also opens the cavity with the second when avoiding opening first cavity of hatching, reduces the influence of opening first cavity of hatching to the second when hatching the cavity, and the same reason is to the influence of first cavity of hatching when also avoiding opening the cavity is hatched to the second.

According to an embodiment of the present invention, a first closed-loop raised rail is disposed at the lower side edge of the first sealing cover, a first closed-loop groove which can be adaptively connected with the first closed-loop raised rail is disposed at the opening end of the incubator corresponding to the first closed-loop raised rail, and the first closed-loop raised rail can be adaptively inserted into the first closed-loop groove; the downside border of the sealed lid of second is equipped with closed loop protruding rail two, the opening end of incubator still corresponds closed loop protruding rail two be equipped with can with closed loop protruding rail two adaptation connection's closed loop recess two, but closed loop protruding rail two adaptations are inserted and are established in the closed loop recess two.

In this embodiment, the first closed-loop convex rail can be inserted into the first closed-loop groove in an adaptive manner, so that the sealing reliability of the first sealing cover on the first incubation cavity is improved, and the second closed-loop convex rail can be inserted into the second closed-loop groove in an adaptive manner, so that the sealing reliability of the second sealing cover on the second incubation cavity is improved.

According to the utility model discloses an embodiment, hypertension detection sample incubation device still includes:

the first closed-loop convex rail is arranged in the first closed-loop groove in an adaptive inserting mode, and when the first closed-loop convex rail is inserted into the first closed-loop groove in the adaptive inserting mode, the first closed-loop convex rail extrudes the first seal ring, so that the first seal ring is attached to the inner side wall of the first closed-loop groove;

and the second sealing ring is installed in the second closed-loop groove, and when the second closed-loop convex rail is inserted into the second closed-loop groove in an adaptive manner, the second closed-loop convex rail extrudes the second sealing ring to enable the second sealing ring to be tightly attached to the inner side wall of the second closed-loop groove.

This embodiment is through install sealing washer one in the closed loop recess, further improve first sealed lid to the first sealed reliability of hatching the cavity seal, in addition install sealing washer two in the closed loop recess two, further improve the sealed reliability of hatching the cavity seal to the second of the sealed lid of second.

According to an embodiment of the present invention, the first temperature is 37 ℃, and the second temperature is 4 ℃. The first temperature of this embodiment is 37 ℃, the second temperature is 4 ℃, satisfies that the detection sample carries out incubation treatment respectively at 37 ℃ and 4 ℃ incubation temperature, is favorable to going on of hypertension detection work.

and the tube sealing membranes are respectively covered on the ports of the incubation tubes and used for sealing the ports of the incubation tubes.

In the embodiment, the port of the incubation tube is sealed by the tube sealing film, so that the sample is prevented from splashing in the sample mixing process, the risk of cross contamination of the sample is reduced, and the accuracy of the detection result is improved; meanwhile, the sample is prevented from splashing in the sample mixing process, so that the occupational exposure risk is reduced.

the two temperature sensing devices are respectively arranged in the first incubation cavity and the second incubation cavity, are respectively electrically connected with the first temperature adjusting device and the second temperature adjusting device, and respectively monitor the temperatures of the first incubation cavity and the second incubation cavity and control the first temperature adjusting device and the second temperature adjusting device;

the display screen is equipped with two, two display screens install the outside of incubator, the display screen with the temperature sensing device electricity is connected.

In this embodiment, the first incubation cavity and the second incubation cavity are respectively provided with the temperature sensing devices, and the temperature sensing devices respectively monitor the temperatures of the first incubation cavity and the second incubation cavity and control the first temperature adjusting device and the second temperature adjusting device, so that the first incubation cavity and the second incubation cavity can be conveniently controlled at a constant temperature; further, this embodiment is favorable to the temperature condition that cavity and second were hatched to the first cavity of hatching of knowing in time through being equipped with the display screen, by detection personnel.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an incubation device for samples for hypertension detection according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 with the second seal cap removed;

FIG. 3 is a schematic view of the structure of FIG. 2 with the second seal cap removed;

FIG. 4 is a schematic view of the incubator of FIG. 1 taken along the middle thereof;

FIG. 5 is a front view of FIG. 4 after being straightened;

fig. 6 is a schematic view of a first incubation frame of an embodiment of the present invention installed on a first mixing device;

FIG. 7 is a schematic view of the first cuvette holding plate and the first closed-loop enclosure frame in FIG. 6;

fig. 8 is a schematic structural diagram of a closed-loop enclosure frame i according to an embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. an incubator 6, an incubation tube 10, a first closed-loop groove 11, a second closed-loop groove 12, a first power switch button 13, a first blending device switch button 14, a first temperature down-regulation button 15, a first temperature up-regulation button 16, a second power switch button 17, a second blending device switch button 18, a second temperature down-regulation button 19, a second temperature up-regulation button 20, a first sealing cover 21, a second sealing cover 30, a first display screen 31, a second display screen 40, a first closed-loop frame 41, a second closed-loop frame 50, a first test tube placing plate 51, a second test tube placing plate 70, a first support plate 71, a second support plate 80, a first blending device 81, a second blending device 90, a temperature insulation plate 201, a first handle 202, a first closed-loop convex rail 211, a second handle 212, a second closed-loop convex rail 401, a first through hole 402, a first clamping groove 501, a first clamping convex rail, 502. and the test tube placing hole I.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application 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 invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The embodiment of the present disclosure provides a sample incubation device for hypertension detection, as shown in fig. 1 to 8, including: the incubator 1 is provided with an opening at the upper end, a first incubation cavity and a second incubation cavity are arranged in the incubator 1, and the upper end of the incubator 1 is provided with a sealing cover which is used for covering the opening of the incubator 1 and sealing the incubator 1; the first sample incubation frame is used for placing the incubation tube 6 filled with the detection sample and is arranged in the first incubation cavity, and a plurality of test tube placing holes 502 used for placing the incubation tube 6 filled with the detection sample are arranged on the first sample incubation frame at intervals; the first blending device 80 is installed in the first incubation cavity, and the first sample incubation frame is installed on the first blending device 80 in a suspended mode and supported by the first blending device 80 and used for shaking the first sample incubation frame to enable the detection samples in the incubation tubes 6 installed on the first sample incubation frame to be blended uniformly; the first temperature adjusting device is arranged in the first incubation cavity and used for adjusting the temperature in the first incubation cavity and controlling the temperature in the first incubation cavity to be at a first temperature; the second sample incubation frame is used for placing the incubation tube 6 filled with the detection sample and is arranged in the second incubation cavity, and a plurality of test tube placing holes II used for placing the incubation tube 6 filled with the detection sample are arranged on the second sample incubation frame at intervals; the second blending device 81 is installed in the second incubation cavity, and the second sample incubation frame is installed on the second blending device 81 in a suspended mode and supported by the second blending device 81 and used for shaking the second sample incubation frame to enable the detection samples in the incubation tubes 6 installed on the second sample incubation frame to be blended uniformly; and the second temperature regulating device is arranged in the second incubation cavity and used for regulating the temperature in the second incubation cavity and controlling the temperature in the second incubation cavity to be at the second temperature.

In this embodiment, as shown in fig. 2 to 5, a first incubation cavity and a second incubation cavity are arranged in an incubator 1, and temperature adjusting devices for adjusting the temperatures in the first incubation cavity and the second incubation cavity are respectively installed in the first incubation cavity and the second incubation cavity, so that the temperatures in the first incubation cavity and the second incubation cavity are controlled to be in different temperature environments, so that two different temperature environments can be provided in the first incubation cavity and the second incubation cavity, and the two incubations of a hypertension detection sample can be respectively performed in two set constant temperature environments in the same device; further, install the mixing device that is used for the detection sample mixing in the pipe 6 of hatching of installing on the frame is hatched to first sample respectively in first hatching cavity and the second hatching cavity, be favorable to making the detection sample misce bene in the pipe 6 of hatching, improve detection efficiency, and do not need artifical mixing, reduce artificial intervention and reduce occupational exposure risk.

In this embodiment, in order to facilitate the respective control and operation of the first incubation cavity and the second incubation cavity, a first power switch button 12 for controlling power supply to the first incubation cavity and a first blending device switch button 13 for switching the first blending device 80 are provided at a position on the front side plate of the incubator 1 corresponding to the first incubation cavity; a second power switch button 16 for controlling power supply to the second incubation cavity is arranged on the front side plate of the incubator 1 corresponding to the second incubation cavity; in addition, a second kneading device switch button 17 for switching the second kneading device 81 is provided, and further, the first kneading device 80 and the second kneading device 81 in this embodiment each employ a kneading machine having the same structure, and may employ another kneading mechanism. After the power switch button one 12 in the embodiment is pressed, the first temperature regulating device is started; after the second power switch button 16 is pressed, the second thermostat is activated and can be independently controlled and activated.

In the embodiment, in order to adjust the temperatures in the first incubation cavity and the second incubation cavity, a first temperature down-regulating button 14 and a first temperature up-regulating button 15 are further arranged on the front side plate of the incubator 1 corresponding to the first incubation cavity; a second temperature-down button 18 and a second temperature-up button 19 are arranged on the front side plate of the incubator 1 corresponding to the second incubation cavity.

The utility model discloses an embodiment, as shown in fig. 2 to fig. 5, be equipped with the incubation cavity in incubator 1, the hypertension detection sample incubation device still includes: and the heat insulation plate 90 is connected in the incubation cavity and separates the incubation cavity to form a first incubation cavity and a second incubation cavity. In this embodiment, will incubate the cavity through insulation board 90 and keep apart and form first incubation cavity and the cavity is hatched to the second, insulation board 90 can realize the effect of insulating temperature, reduce the first heat exchange of incubating between cavity and the second incubation cavity of incubating, thereby reduce the first influence of incubating between cavity and the second incubation cavity of incubating, the temperature that makes first incubation cavity and second incubation cavity is convenient for control in a constant temperature, be favorable to realizing carrying out twice incubation under two constant temperature environment that set for respectively to the hypertension detection sample.

In this embodiment, in order to make the space of the first incubation cavity and the second incubation cavity formed by the thermal insulation plate 90 and the incubation cavity separated from each other equal, the thermal insulation plate 90 is vertically and fixedly connected to the middle position of the incubation cavity, and the front end and the rear end of the thermal insulation plate 90 are respectively connected to the inner sides of the front side plate and the rear side plate of the incubator 1. Further, the incubator 1 in this embodiment is a rectangular parallelepiped structure, and the incubation cavity is a rectangular parallelepiped structure; in addition, the incubator 1 may be provided in other configurations.

In an embodiment of the present invention, as shown in fig. 2 to fig. 5, the first sample incubation frame and the first blending device 80 are provided in plurality, the plurality of first sample incubation frames and the first blending device 80 are installed in the first incubation cavity at intervals, and the plurality of first sample incubation frames are respectively installed at the upper end of the first blending device 80; the second sample incubation frame and the second blending device 81 are provided with a plurality of second sample incubation frames and the second blending device 81 are arranged in the second incubation cavity at intervals, and the second sample incubation frames are respectively arranged at the upper end of the second blending device 81.

In this embodiment, as shown in fig. 2 to 5, a plurality of first sample incubation frames and a first blending device 80 are disposed in the first incubation cavity, and a plurality of second sample incubation frames and a second blending device 81 are disposed in the second incubation cavity, so that the first incubation cavity and the second incubation cavity can be respectively provided with a plurality of detection sample incubation tubes 6, and a plurality of detection samples can be incubated at one time, thereby improving the detection efficiency. Further, in the illustration of this embodiment, four first sample incubation frames and first blending devices 80 are disposed in the first incubation cavity, and four second sample incubation frames and second blending devices 81 are disposed in the second incubation cavity, so that a plurality of detection samples can be incubated at one time.

In an embodiment of the present invention, as shown in fig. 7 and 8, the first sample incubation frame includes: the first support plate 70 is connected to the upper end of the first blending device 80; the first closed-loop enclosure frame 40 is connected to the upper side face of the first support plate 70, a first accommodating cavity is defined between the first closed-loop enclosure frame 40 and the first support plate 70, and a plurality of first through holes 401 are formed in the side plate of the first closed-loop enclosure frame 40; the first test tube placing plate 50 is installed at the upper end of the first closed-loop enclosure frame 40, and a plurality of first test tube placing holes 502 for placing incubation tubes 6 filled with detection samples are formed in the first test tube placing plate 50; the second sample incubation rack comprises: the second supporting plate 71 is connected to the upper end of the second blending device 81; the second closed-loop enclosure frame 41 is connected to the upper side face of the second support plate 71, a second accommodating cavity is defined between the second closed-loop enclosure frame 41 and the second support plate 71, and a plurality of second through holes are formed in a side plate of the second closed-loop enclosure frame 41; and the second test tube placing plate 51 is arranged at the upper end of the second closed-loop enclosing frame 41, and a plurality of second test tube placing holes for placing the incubation tubes 6 filled with the detection samples are formed in the second test tube placing plate 51.

In the present embodiment, as shown in fig. 7 and 8, a first accommodating cavity is defined between the first closed-loop enclosure frame 40 and the first support plate 70, so as to facilitate the mounting of the first test tube placing plate 50 on the upper end of the first closed-loop enclosure frame 40; in addition, a second accommodating cavity is defined between the second closed-loop surrounding frame 41 and the second supporting plate 71, so that the second test tube placing plate 51 is conveniently installed at the upper end of the second closed-loop surrounding frame 41. Further, the first sample incubation rack and the second sample incubation rack in this embodiment have the same structure, and a test tube is used as the incubation tube 6 in this embodiment.

In the present embodiment, as shown in fig. 7 and 8, the first test tube placing plate 50 is detachably mounted on the upper end of the first closed-loop surrounding frame 40; in the embodiment, in order to facilitate the mounting of the first test tube placing plate 50 on the first closed-loop surrounding frame 40, the first test tube placing plate 50 can be clamped on the first closed-loop surrounding frame 40, a plurality of first clamping convex rails 501 are arranged at intervals on the left end and the right end of the first test tube placing plate 50, the first clamping convex rails 501 protrude out of the lower side surface of the first test tube placing plate 50, and correspondingly, the first clamping convex rails 501 arranged on the upper end of the first closed-loop surrounding frame 40 corresponding to the first test tube placing plate 50 are provided with first clamping grooves 402 which are in adaptive clamping connection with the first clamping convex rails 501; further, the structure of the second cuvette holding plate 51 in this embodiment is the same as that of the first cuvette holding plate 50, and the structure of the second closed-loop enclosure frame 41 is the same as that of the first closed-loop enclosure frame 40. Further, in this embodiment, in order to more conveniently place the incubation tubes 6 on the first cuvette holding plate 50, the first cuvette holding plate 50 may be configured as a strip-shaped cuvette holding plate, and a plurality of strip-shaped cuvette holding plates may be mounted on the first closed-loop enclosure frame 40 at intervals.

The utility model discloses an embodiment, as shown in fig. 2 to 5, sealed lid includes first sealed lid 20 and the sealed lid 21 of second, and first sealed lid 20 can cover and establish the top of first hatching cavity and seal first hatching cavity, and the sealed lid 21 of second can cover and establish the top of second hatching cavity and seal the second hatching cavity. In this embodiment, the first cavity of hatching seals through first sealed lid 20, and the second cavity of hatching seals through the sealed lid 21 of second, can realize opening first cavity of hatching and the cavity of hatching of second respectively, also opens the cavity of hatching the second when avoiding opening first cavity of hatching, reduces the influence of opening first cavity of hatching to the second when hatching the cavity, and the same reason also avoids opening the influence of the second cavity of hatching to first when hatching the cavity. Further, in order to facilitate lifting the first sealing cover 20 and the second sealing cover 21 respectively, the first sealing cover 20 is provided with a first handle 201, and the second sealing cover 21 is provided with a second handle 211; the first and second seal covers 20 and 21 shown in the present embodiment have the same structure, and the first and second seal covers 20 and 21 may be designed to have different structures.

In an embodiment of the present invention, as shown in fig. 2 to 5, the lower side edge of the first sealing cover 20 is provided with a first closed-loop raised rail 202, the opening end of the incubator 1 corresponding to the first closed-loop raised rail 202 is provided with a first closed-loop groove 10 adapted to be connected with the first closed-loop raised rail 202, and the first closed-loop raised rail 202 is adapted to be inserted into the first closed-loop groove 10; the edge of the lower side surface of the second sealing cover 21 is provided with a second closed-loop convex rail 212, the open end of the incubator 1 is also provided with a second closed-loop groove 11 which is adaptive to the second closed-loop convex rail 212 and can be connected with the second closed-loop convex rail 212, and the second closed-loop convex rail 212 can be adaptive to and inserted in the second closed-loop groove 11.

In this embodiment, as shown in fig. 4 and 5, the first closed-loop raised rail 202 can be inserted into the first closed-loop groove 10 to improve the sealing reliability of the first sealing cover 20 to the first incubation cavity, and the second closed-loop raised rail 212 can be inserted into the second closed-loop groove 11 to improve the sealing reliability of the second sealing cover 21 to the second incubation cavity. Further, the structure of the first closed-loop land track 202 and the second closed-loop land track 212 shown in the present embodiment are the same. The height of the heat insulation plate 90 in the embodiment is flush with the upper end of the incubator 1, and the closed-loop groove I10 and the part of the heat insulation plate 90, which is arranged at the upper end, are arranged on the upper end surface of the heat insulation plate 90.

The utility model discloses an embodiment, the device is hatched to the blood pressure test sample still includes: the first sealing ring is installed in the first closed-loop groove 10, and when the first closed-loop convex rail 202 is inserted into the first closed-loop groove 10 in a matching mode, the first closed-loop convex rail 202 extrudes the first sealing ring to enable the first sealing ring to be attached to the inner side wall of the first closed-loop groove 10; and the second sealing ring is arranged in the second closed-loop groove 11, and when the second closed-loop convex rail 212 is inserted into the second closed-loop groove 11 in an adaptive manner, the second closed-loop convex rail 212 extrudes the second sealing ring to enable the second sealing ring to be attached to the inner side wall of the second closed-loop groove 11.

In this embodiment, the first seal ring is installed in the first closed-loop groove 10, so that the reliability of sealing the first seal cover 20 to the first incubation cavity is further improved, and the second seal ring is installed in the second closed-loop groove 11, so that the reliability of sealing the second seal cover 21 to the second incubation cavity is further improved. The first seal ring and the second seal ring in the present embodiment are not shown.

In one embodiment of the present invention, as shown in fig. 2 to 5, the first temperature is 37 ℃ and the second temperature is 4 ℃. The first temperature of this embodiment is 37 ℃, and the second temperature is 4 ℃, satisfies that the detection sample carries out incubation treatment respectively at 37 ℃ and 4 ℃ of incubation temperature, is favorable to going on of hypertension detection work. In this embodiment, the incubation tube 6 placed in the second incubation cavity is the incubation tube 6 that has been processed in the first incubation cavity.

The utility model discloses an embodiment, as shown in fig. 2 to fig. 5, the blood pressure test sample incubation device still includes: and the tube sealing membranes are respectively covered on the ports of the incubation tubes 6 and used for sealing the ports of the incubation tubes 6. In the embodiment, the port of the incubation tube 6 is sealed by the tube sealing film, so that the sample is prevented from splashing in the sample mixing process, the risk of cross contamination of the sample is reduced, and the accuracy of the detection result is improved; meanwhile, the sample is prevented from splashing in the sample mixing process, so that the occupational exposure risk is reduced. The tube sealing film in this example is not shown.

The utility model discloses an embodiment, as shown in fig. 2 to fig. 5, the blood pressure test sample incubation device still includes: the two temperature sensing devices are respectively arranged in the first incubation cavity and the second incubation cavity and are respectively electrically connected with the first temperature adjusting device and the second temperature adjusting device, and the two temperature sensing devices respectively monitor the temperature of the first incubation cavity and the temperature of the second incubation cavity and control the first temperature adjusting device and the second temperature adjusting device; the display screen is equipped with two, and two display screens are installed in the outside of incubator 1, and the display screen is connected with temperature sensing device electricity.

In this embodiment, as shown in fig. 3 and 5, the temperature sensing devices are respectively disposed in the first incubation cavity and the second incubation cavity, and the temperature sensing devices respectively monitor and control the temperatures of the first incubation cavity and the second incubation cavity, and facilitate to control the first incubation cavity and the second incubation cavity at a constant temperature; further, this embodiment is favorable to the temperature condition that cavity and second were hatched to the first cavity of hatching of knowing in time through being equipped with the display screen, by detection personnel. The display screen for displaying the temperature of the first incubation cavity in the embodiment is a first display screen 30, the first display screen 30 is installed on the front portion of the front side plate of the first incubation cavity, the display screen for displaying the temperature of the second incubation cavity is a second display screen 31, and the second display screen 31 is installed on the front portion of the front side plate of the second incubation cavity. Further, the temperature sensing device, the first temperature adjusting device, and the second temperature adjusting device in the present embodiment are not shown.

Specifically, in this embodiment, a first incubation cavity and a second incubation cavity are arranged in the incubator 1, and temperature adjusting devices for adjusting the temperatures in the first incubation cavity and the second incubation cavity are respectively installed in the first incubation cavity and the second incubation cavity, so that the temperatures in the first incubation cavity and the second incubation cavity are controlled to be in different temperature environments, so that two different temperature environments can be provided in the first incubation cavity and the second incubation cavity, and the two times of incubation treatment of the hypertension detection sample in two set constant temperature environments can be conveniently realized in the same device; further, install the mixing device that is used for the detection sample mixing in the pipe 6 of hatching of installing on the frame is hatched to first sample respectively in first hatching cavity and the second hatching cavity, be favorable to making the detection sample misce bene in the pipe 6 of hatching, improve detection efficiency, and do not need artifical mixing, reduce artificial intervention and reduce occupational exposure risk. Therefore, the incubation device for the hypertension detection sample in the embodiment can provide two different incubation environments with suitable temperatures, can effectively control the reaction temperature of the sample, and improves the accuracy of the detection result. Furthermore, the sample incubation device for hypertension detection in the embodiment can be assembled with a chemiluminescence immunoassay analyzer into a whole, and the full automation of the whole hypertension detection process is facilitated.

In addition, except the technical scheme that this disclosed embodiment discloses, to the utility model provides a temperature sensor, blending machine and theory of operation etc. can refer to this technical field's conventional technical scheme, and these conventional technical scheme also are not the utility model discloses a focus, the utility model discloses do not state in detail here.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "back", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. A hypertension detection sample incubation device is characterized by comprising:

2. The incubation device for samples for hypertension detection according to claim 1, wherein the incubation cavity is disposed in the incubation chamber, further comprising:

3. The incubation device for the samples for hypertension detection according to claim 1, wherein the first sample incubation rack and the first mixing device are provided in plurality, the plurality of first sample incubation racks and the first mixing device are installed in the first incubation cavity at intervals, and the plurality of first sample incubation racks are respectively installed at the upper end of the first mixing device;

4. The device for incubating samples for hypertension detection according to any one of claims 1 to 3, wherein the first sample incubation rack comprises:

the second sample incubation rack comprises:

5. The device for incubating samples for hypertension detection according to any one of claims 1 to 3, wherein the sealing caps comprise a first sealing cap and a second sealing cap, the first sealing cap is capable of being disposed over the first incubation cavity and sealing the first incubation cavity, and the second sealing cap is capable of being disposed over the second incubation cavity and sealing the second incubation cavity.

6. The device for incubating samples for hypertension detection as claimed in claim 5, wherein the lower side edge of the first sealing cover is provided with a first closed-loop convex rail, the open end of the incubator is provided with a first closed-loop groove corresponding to the first closed-loop convex rail, the first closed-loop groove being fittingly connected with the first closed-loop convex rail, and the first closed-loop convex rail is fittingly inserted into the first closed-loop groove; the downside border of the sealed lid of second is equipped with closed loop protruding rail two, the opening end of incubator still corresponds closed loop protruding rail two be equipped with can with closed loop protruding rail two adaptation connection's closed loop recess two, but closed loop protruding rail two adaptations are inserted and are established in the closed loop recess two.

7. The device for incubating samples for hypertension detection according to claim 6, further comprising:

8. The device for incubating samples for measuring hypertension according to any one of claims 1 to 3, wherein the first temperature is 37 ℃ and the second temperature is 4 ℃.

9. The sample incubation device for hypertension detection according to any one of claims 1 to 3, further comprising:

10. The sample incubation device for hypertension detection according to any one of claims 1 to 3, further comprising: