CN218727367U - Incubation device and sample analyzer - Google Patents

Abstract

The utility model relates to a medical science inspection technical field especially relates to an incubation device and sample analyzer, and wherein, incubation device includes: an incubation pan assembly having an incubation space; the outer incubation tray assembly comprises an outer incubation tray and an outer tray driving assembly, the outer incubation tray is provided with an annular outer incubation cup supporting ring, and a plurality of outer incubation cup supporting structures used for supporting the reaction cups are arranged on the upper side of the outer incubation cup supporting ring; interior tray subassembly of hatching is provided with a plurality of interior support cup structures of hatching that are used for bearing reaction cup including interior tray and the interior dish drive assembly of hatching of interior side of hatching of tray. The utility model discloses in, the tray is hatched outward and the tray is hatched in the interior respectively by outer disk drive subassembly and the drive of interior disk drive subassembly, independently rotates separately, to the detection flow of difference, can be hatched the tray outward and select between the tray is hatched in the interior for hatch the device and can be applicable to more detection flows, improve the commonality of hatching the device.

Description

Incubation device and sample analyzer

Technical Field

The utility model relates to a medical science inspection technical field especially relates to an incubation device and sample analyzer.

Background

In the field of medical examination, when an extract of a human body is detected and analyzed, it is necessary to simulate the examination environment temperature of the extract to be equivalent to the body temperature of the human body, and thus an incubation device has come to work. At present, the device of hatching on the market will hatch tray global design usually for a disc, will hatch the tray and set up to a whole to be equipped with a plurality of structures of placing that are used for bearing reaction cup on this tray of hatching, based on this, the reaction cup on the tray of hatching all removes along with hatching the tray in the lump, and the device of hatching is comparatively single to reaction cup's scheduling mode, and the detection flow that can be suitable for is less, and the commonality is relatively poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide an incubation device, it aims at solving its dispatch mode to the reaction cup comparatively single, and the detection flow that can be suitable for is less, and the commonality is relatively poor.

The utility model discloses a realize like this:

an incubation device, comprising:

an incubation pan assembly having an incubation space;

the outer incubation tray assembly comprises an outer incubation tray positioned in the incubation space and an outer tray driving assembly used for driving the outer incubation tray to rotate around a rotating axis extending up and down, the outer incubation tray is provided with an annular outer incubation tray ring, and a plurality of outer incubation tray structures used for supporting the reaction cup are arranged on the upper side of the outer incubation tray ring;

interior incubation dish subassembly, including being located incubate the interior tray of incubating the space and be used for the drive interior dish drive assembly that interior incubation tray rotates around the axis of rotation pivoted that extends from top to bottom, the upside of interior incubation tray is provided with a plurality of interior incubation support cup structures that are used for bearing the reaction cup, the axis of rotation of interior incubation tray with the coaxial setting of axis of rotation of outer incubation tray, each interior incubation support cup structure with each the outer dislocation set that holds in the palm cup structure in the below direction of incubating.

Optionally, the incubation space is cylindrical;

the peripheral side of the outer incubation tray is at least partially abutted with the cavity wall of the incubation space.

Optionally, the inner incubation tray is disc-shaped, the inner incubation tray being located within an inner annular cavity of the outer incubation tray ring.

Optionally, the outer incubation tray is provided with a limiting ring in an inner ring cavity of the outer incubation cup ring, and an outer ring diameter of the limiting ring is smaller than an inner ring diameter of the outer incubation cup ring;

the lower side surface of the inner incubation tray is provided with a limiting circular groove, the limiting circular groove is used for placing the limiting circular ring, and the diameter of the limiting circular groove is matched with the outer ring diameter of the limiting circular ring.

Optionally, each of the outer incubation cup structures forms at least one annular array having a central axis that is the axis of rotation of the outer incubation tray;

and/or each inner incubation cup structure forms at least one ring of annular array with the central axis of the annular array being the rotation axis of the inner incubation tray.

Optionally, the outer incubation tray can drive the outer incubation cup structure to undergo at least one outer incubation transfer when rotating;

the inner incubation tray can drive the inner incubation cup structure to pass through at least one inner incubation transfer position when rotating, and each inner incubation transfer position is respectively opposite to one outer incubation transfer position;

the upper side of the incubation pot assembly is provided with at least one exposed port communicated to the incubation space, and the exposed ports respectively expose the outer incubation transfer position and the outer incubation transfer position which are arranged in pairs.

Optionally, the outer disc driving assembly comprises an outer disc rotating shaft with one end connected to the outer incubation tray and extending out of the incubation pan assembly from the incubation space downwards, and an outer disc driving structure connected to the other end of the outer disc rotating shaft;

the inner disc driving assembly comprises an inner disc transfer shaft and an inner disc driving structure, one end of the inner disc driving structure is connected with the inner incubation tray, and the incubation space penetrates out of the incubation pot assembly upwards.

Optionally, the incubation device further comprises a support assembly comprising a support base plate, an incubation tray support column, and an incubation pan support column;

the support floor is positioned below the incubation pan assembly;

one end of the incubation disc support column is rotatably connected to the outer incubation tray, the other end of the incubation disc support column penetrates out of the incubation space downwards and is fixedly connected to the support bottom plate, and the outer disc rotating shaft is arranged in a cylindrical shape and is sleeved with the incubation disc support column;

a plurality of incubation pot supporting columns are arranged, one end of each incubation pot supporting column is connected to the incubation pot assembly, and the other end of each incubation pot supporting column is connected to the supporting bottom plate;

the outer disk drive structure is mounted on the support base plate;

the inner disc driving structure is installed on the incubation pot assembly.

Optionally, the outer incubation tray holds the inner incubation tray and is in transfer fit with the inner incubation tray.

The utility model also provides a sample analyzer, include as above incubation device.

Based on the utility model discloses, the tray is hatched outward and the tray is hatched in the interior respectively by outer disk drive subassembly and the drive of interior disk drive subassembly, independently rotates separately, to the detection flow of difference, can be hatched the tray outward and select between the tray is hatched in the interior for hatch the device and can be applicable to more detection flows, improve the commonality of hatching the device.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of an overall structure of an incubation device provided by an embodiment of the present invention;

fig. 2 is an exploded view of an incubation device provided by an embodiment of the present invention;

fig. 3 is a schematic partial structural view of an incubation device provided by an embodiment of the present invention;

FIG. 4 is an exploded view of FIG. 3;

fig. 5 is another view angle structure diagram of fig. 4.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Incubation pot assembly	101	Exposed port
110	Incubation pot	120	Incubation cover
				200	External incubation disk assembly
210	Outer incubation tray	2101	Cup supporting structure for external incubation
				211	Cup supporting ring for external incubation
212	Limiting ring
				220	Outer disc drive assembly
221	Outer disc adapter shaft	222	Outer disc driving structure
				300	Internal incubation disc assembly
310	Internal incubation tray 310
				3101	Internal incubation support cup structure	3102	Limiting circular groove
320	Inner disc drive assembly
				321	Inner disc adapter shaft	322	Inner disc driving structure
400	Support assembly
				410	Supporting bottom plate	420	Incubation disc support column
430	Incubation pot supporting column
				500	Reaction cup

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The embodiment of the utility model provides an incubation device.

Referring to fig. 1 to 5, the incubation device includes an incubation pan assembly 100, an outer incubation pan assembly 200, and an inner incubation pan assembly 300.

The incubation pan assembly 100 has an incubation space. The incubation pan assembly 100 is capable of controlling the temperature of the incubation space such that the incubation space has a satisfactory incubation environment. In the embodiment of the present invention, preferably, the incubation pan assembly 100 includes an incubation pan 110 and an incubation cover 120, the incubation cover 120 is located on the upper side of the incubation pan 110, and forms an incubation space together with the incubation pan 110; of course, it should be noted that in the specific implementation, the incubation pan assembly 100 further includes a heat preservation structure, a heating control switch, and the like, so as to control the temperature of the incubation space.

Outer tray subassembly 200 of hatching is including being located the outer tray 210 of hatching in the space and being used for driving outer tray drive assembly 220 of hatching tray 210 and around the axis of rotation pivoted that extends from top to bottom, and outer tray 210 of hatching has and is annular outer tray ring 211 of hatching, and the upside of outer tray ring 211 of hatching is provided with a plurality of outer tray structures 2101 of hatching that are used for bearing reaction cup 500 (one has been placed to fig. 3 to 5).

The inner incubation tray assembly 300 comprises an inner incubation tray 310 located in the incubation space and an inner tray driving assembly 320 used for driving the inner incubation tray 310 to rotate around a rotating axis extending up and down, a plurality of inner incubation cup supporting structures 3101 used for supporting the reaction cups 500 are arranged on the upper side of the inner incubation tray 310, the rotating axis of the inner incubation tray 310 and the rotating axis of the outer incubation tray 210 are coaxially arranged, and the inner incubation cup supporting structures 3101 and the outer incubation cup supporting structures 2101 are arranged in a staggered mode in the up-down direction.

Based on the utility model discloses, outer tray 210 and the interior tray 310 of hatching are driven by outer disk drive subassembly 220 and interior disk drive subassembly 320 respectively, and independent rotation separately to the detection flow of difference, can select between outer tray 210 and the interior tray 310 of hatching for hatch the device and can be applicable to more detection flows, improve the commonality of hatching the device.

Referring to fig. 2 to 5, in the embodiment of the present invention, the incubation space is cylindrical;

the outer incubation tray 210 is at least partially in contact with the wall of the incubation space. Because the peripheral side of the outer incubation tray 210 at least partially abuts against the wall of the incubation space, the relative movement of the incubation pan assembly 100 and the outer incubation tray 210 in the radial direction is limited.

Specifically, in the embodiment of the present invention, the outer incubation tray 210 is disc-shaped, and the outer diameter of the outer incubation tray 210 matches with the column diameter of the incubation space; of course, in other embodiments, the outer incubation tray 210 may also be other shapes, such as a five-pointed star or a gear shape.

Further, the inner incubation tray 310 is disc-shaped, and the inner incubation tray 310 is located in the inner ring cavity of the outer incubation tray ring 211. Based on this, inner incubation tray 310 is received within outer incubation tray 210, which facilitates reducing the size of outer incubation tray assembly 200.

Further, the outer diameter of the inner incubation tray 310 matches the inner diameter of the outer incubation tray ring 211, based on which the incubation tray ring can limit the relative movement of the inner and outer incubation trays 310, 210 in the radial direction.

Furthermore, the outer incubation tray 210 is provided with a limiting ring 212 in an inner ring cavity of the outer incubation cup ring 211, and the outer ring diameter of the limiting ring 212 is smaller than the inner ring diameter of the outer incubation cup ring 211;

the lower side surface of the inner incubation tray 310 is provided with a limiting circular groove 3102, the limiting circular groove 3102 is used for the limiting circular ring 212 to be placed in, and the diameter of the limiting circular groove 3102 is matched with the outer ring diameter of the limiting circular ring 212.

Based on this, since the diameter of the circular limiting groove 3102 matches the outer ring diameter of the circular limiting ring 212, the circular limiting ring 212 limits the inner incubation tray 310 from moving in the radial direction, further preventing the inner incubation tray 310 and the outer incubation tray 210 from moving relatively in the radial direction.

Referring to fig. 2 to 4, in the embodiment of the present invention, each outer incubation cup structure 2101 forms an annular array with at least one central axis as the rotation axis of the outer incubation tray 210.

Referring to fig. 2 to 4, in the present embodiment, each inner incubation cup structure 3101 forms at least one ring-shaped array with a central axis being the rotation axis of the inner incubation tray 310.

Referring to fig. 1 and fig. 2, in the embodiment of the present invention, the outer incubation tray 210 can drive the outer incubation cup holding structure 2101 to shift through at least one outer incubation shift when rotating;

the inner incubation tray 310 can drive the inner incubation cup structure 3101 to pass through at least one inner incubation transfer position when rotating, and each inner incubation transfer position is respectively arranged opposite to one outer incubation transfer position;

the upper side of incubation pot assembly 100 is provided with at least one exposure opening 101 communicated to the incubation space, and each exposure opening 101 respectively exposes the paired outer incubation transfer position and the outer incubation transfer position.

Therefore, when the transfer gripper is used for transferring the reaction cup 500 from the outer incubation transferring position to the inner incubation transferring position, the outer incubation transferring position and the outer incubation transferring position which are arranged in pairs share the same exposed opening 101, and the outer incubation transferring position which are arranged in pairs can also share the same transfer gripper, so that the transfer gripper used in cooperation with the incubation device is simplified.

Here, in combination with the above structure, the exposure port 101 is provided in the incubation cover 120.

In the embodiment of the present invention, the outer incubation transfer position, the inner incubation transfer position and the exposed opening 101 are all three, and the exposed opening 101 is a strip-shaped hole.

Referring to fig. 1 and 2, in the embodiment of the present invention, the outer disc driving assembly 220 includes an outer disc rotating shaft 221 having one end connected to the outer incubation tray 210 and extending out of the incubation pan assembly 100 from the incubation space, and an outer disc driving structure 222 connected to the other end of the outer disc rotating shaft 221;

the inner disc drive assembly 320 includes an inner disc pivot shaft 321 having one end connected to the inner incubation tray 310 and extending upwardly out of the incubation space through the incubation pan assembly 100, and an inner disc drive structure 322 connected to the other end of the inner disc pivot shaft 321.

Based on the structural design, the inner disk driving structure 322 and the outer disk driving structure 222 are respectively positioned on the upper side and the lower side of the incubation pan assembly 100 and are respectively and independently arranged, so that the inner disk driving structure 322 and the outer disk driving structure 222 both have abundant space installation space. In addition, all locate incubation pot subassembly 100 upside or downside for inner disc drive structure 322 and outer disc drive structure 222, be favorable to reducing the structural complexity of inner disc drive structure 322 and outer disc drive structure 222, simplified the structure, and still be favorable to less incubation device's overall size.

In the embodiment of the present invention, preferably, the outer disk drive structure 222 and the inner disk drive structure 322 are both belt drives.

In the embodiment of the present invention, the incubation device further includes two coded disc angle measurement structures, and the two coded disc angle measurement structures are used for measuring the rotation conditions of the outer incubation tray 210 and the inner incubation tray 310.

Referring to fig. 1 and fig. 2, in the embodiment of the present invention, the incubation apparatus further includes a support assembly 400, the support assembly 400 includes a support base plate 410, an incubation tray support column 420, and an incubation pan support column 430;

the support floor 410 is located below the incubation pan assembly 100;

one end of the incubation tray supporting column 420 is rotatably connected to the outer incubation tray 210, the other end of the incubation tray supporting column penetrates out of the incubation space downwards and is fixedly connected to the supporting bottom plate 410, and the outer tray rotating shaft 221 is arranged in a cylindrical shape and is sleeved with the incubation tray supporting column 420;

a plurality of incubation pot supporting columns 430 are arranged, one end of the incubation pot supporting column 430 is connected to the incubation pot assembly 100, and the other end is connected to the supporting bottom plate 410;

the outer disk drive structure 222 is mounted to the support base plate 410;

the inner disk drive structure 322 is mounted to the incubation well assembly 100.

Based on this structural design, the incubation device can be moved as a whole, so that after handling and moving, there is no need to reassemble etc. there.

Referring to fig. 3 to 5, in the embodiment of the present invention, the outer incubation tray 210 supports the inner incubation tray 310 and is adapted to cooperate with the inner incubation tray 310. Based on this, interior incubation tray 310 is supported by outer incubation tray 210, need not other structures and supports interior incubation tray 310, is favorable to simplifying the structure of hatching apparatus.

Here, in combination with the above structure, the inner disk drive structure 322 is mounted on the incubation cover 120.

The utility model discloses still provide a sample analyzer, this sample analyzer is including hatching the device, and the concrete structure of this hatching device refers to above-mentioned embodiment, because this sample analysis has adopted the whole technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought equally, and the repeated description is no longer given here.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An incubation device, comprising:

an incubation pan assembly having an incubation space;

the outer incubation tray assembly comprises an outer incubation tray positioned in the incubation space and an outer tray driving assembly used for driving the outer incubation tray to rotate around a rotating axis extending up and down, the outer incubation tray is provided with an annular outer incubation tray ring, and a plurality of outer incubation tray structures used for supporting the reaction cup are arranged on the upper side of the outer incubation tray ring;

interior incubation dish subassembly, including being located incubate the interior tray of incubating the space and be used for the drive interior dish drive assembly that interior incubation tray rotates around the axis of rotation pivoted that extends from top to bottom, the upside of interior incubation tray is provided with a plurality of interior incubation support cup structures that are used for bearing the reaction cup, the axis of rotation of interior incubation tray with the coaxial setting of axis of rotation of outer incubation tray, each interior incubation support cup structure with each the outer dislocation set that holds in the palm cup structure in the below direction of incubating.

2. The incubation device of claim 1, wherein the incubation space is cylindrical;

the peripheral side of the outer incubation tray is at least partially abutted with the cavity wall of the incubation space.

3. The incubation device of claim 1, wherein the inner incubation tray is disc-shaped and is positioned within an inner annular cavity of the outer incubation tray ring.

4. The incubation device of claim 3, wherein the outer incubation tray provides a stop ring within an inner annular cavity of the outer incubation tray ring, the stop ring having an outer annular diameter that is less than an inner annular diameter of the outer incubation tray ring;

the lower side surface of the inner incubation tray is provided with a limiting circular groove, the limiting circular groove is used for placing the limiting circular ring, and the diameter of the limiting circular groove is matched with the outer ring diameter of the limiting circular ring.

5. The incubation apparatus of claim 1, wherein each of the outer incubation cup structures forms at least one annular array having a central axis that is the axis of rotation of the outer incubation tray;

and/or each inner incubation cup structure forms at least one ring of annular array with the central axis of the annular array being the rotation axis of the inner incubation tray.

6. The incubation apparatus of claim 1, wherein the outer incubation tray, when rotated, is capable of carrying the outer incubation cup structure through at least one outer incubation rotation;

the inner incubation tray can drive the inner incubation cup structure to pass through at least one inner incubation transfer position when rotating, and each inner incubation transfer position is respectively opposite to one outer incubation transfer position;

the upper side of the incubation pot assembly is provided with at least one exposed port communicated to the incubation space, and the exposed ports respectively expose the outer incubation transfer position and the outer incubation transfer position which are arranged in pairs.

7. The incubation apparatus of claim 1, wherein the outer disc drive assembly includes an outer disc adapter shaft having one end connected to the outer incubation tray and extending downwardly out of the incubation space through the incubation pan assembly, and an outer disc drive structure connected to the other end of the outer disc adapter shaft;

the inner disc driving assembly comprises an inner disc transfer shaft and an inner disc driving structure, one end of the inner disc driving structure is connected with the inner incubation tray, and the incubation space penetrates out of the incubation pot assembly upwards.

8. The incubation apparatus of claim 7, further comprising a support assembly comprising a support floor, an incubation tray support post, and an incubation pan support post;

the support floor is positioned below the incubation pan assembly;

one end of the incubation disc support column is rotatably connected to the outer incubation tray, the other end of the incubation disc support column penetrates out of the incubation space downwards and is fixedly connected to the support bottom plate, and the outer disc rotating shaft is arranged in a cylindrical shape and is sleeved with the incubation disc support column;

a plurality of incubation pot supporting columns are arranged, one end of each incubation pot supporting column is connected to the incubation pot assembly, and the other end of each incubation pot supporting column is connected to the supporting bottom plate;

the outer disk drive structure is mounted on the support baseplate;

the inner disc driving structure is mounted on the incubation pot assembly.

9. The incubation apparatus of claim 8, wherein the outer incubation tray supports the inner incubation tray and is adapted to mate with the inner incubation tray.

10. A sample analyzer comprising an incubation device according to any of claims 1 to 9.

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