CN211469935U - Conveying module and detection equipment - Google Patents

Abstract

The utility model provides a conveying module, which comprises a conveying component and a guide piece, wherein the conveying component is used for conveying reagent cards; the guide piece is used for guiding the reagent card. This carry the module and change the direction of delivery of reagent card in carrying the module through setting up the guide to reduce and carry the length and size of module on the horizontal direction, thereby make and carry the module and have compacter structure, be convenient for accomodate and transport. The utility model also provides a check out test set, check out test set includes above-mentioned transport module. Through set up above-mentioned compact structure's transport module in check out test set, can make check out test set have compacter structure to make check out test set have less volume, it is convenient to accomodate, and the transportation is convenient.

Description

Conveying module and detection equipment

Technical Field

The utility model relates to a medical treatment detects technical field, especially relates to a carry module and check out test set.

Background

In conventional medical testing equipment, the testing, transporting and collecting systems are generally arranged in a straight line along the horizontal direction, which makes the testing equipment have a longer dimension in the straight line direction, resulting in a larger occupied space of the testing equipment and inconvenient storage and transportation.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a carry module and check out test set for solve traditional check out test set and accomodate inconvenient and transport inconvenient problem.

In order to achieve one or part or all of the above purposes or other purposes, the present invention provides a conveying module for conveying reagent cards, comprising:

a transport assembly having a first transport end and a second transport end, the transport assembly for transporting reagent cards in a direction from the first transport end to the second transport end; and

the guide piece is arranged at the second conveying end and used for guiding the reagent cards output by the second conveying end; at least part of the structure of the guide member extends along the direction from the second conveying end to the first conveying end and inclines towards one side far away from the conveying assembly along the gravity direction.

Optionally, the reagent card storage device further comprises a storage bin, the storage bin is arranged on the lower side of the guide piece in the gravity direction, and the storage bin is used for storing the reagent card output by the guide piece.

Optionally, the accommodating bin and the guide member are arranged in a relatively movable manner, and when the accommodating bin moves to the receiving position, the accommodating bin can accommodate the reagent cards output by the guide member.

Optionally, the device further comprises an ejecting assembly for driving the containing bin to move along the direction from the second conveying end to the first conveying end.

Optionally, the pushing assembly comprises an ejector, an elastic member and a positioning member, the ejector is connected to the elastic member, and the elastic member is used for driving the ejector to move along the direction from the second conveying end to the first conveying end, so that the ejector drives the accommodating bin to move; the locating part with the setting of ejector member relative movement, just the locating part is used for right the ejector member is fixed a position.

Optionally, the guide has a first included angle between the oblique direction and the direction from the second conveying end to the first conveying end, and the first included angle is in the range of 20 ° to 30 °.

Optionally, the guide member and the conveying assembly are arranged in a relative rotation manner, a second included angle is formed between the inclination direction of the guide member and the direction from the second conveying end to the first conveying end, and the angle of the second included angle is not greater than 90 °.

Optionally, the device further comprises a stopper for restricting the reagent card within the delivery assembly when the cartridge leaves the receiving position.

Optionally, the rotation axis of the guide extends in a horizontal direction, and the rotation axis is perpendicular to the direction from the first conveying end to the second conveying end; the limiting part is connected to the containing bin and is used for abutting against the guide part when the containing bin leaves the receiving position, so that the guide part limits the reagent card in the conveying assembly.

The utility model also provides a check out test set for detect reagent card, check out test set includes above-mentioned arbitrary one carry the module.

Implement the embodiment of the utility model provides a, following beneficial effect has:

when the conveying module is used, the reagent card is firstly input into the conveying module from the first conveying end, the conveying module conveys the reagent card along the direction from the first conveying end to the second conveying end and outputs the reagent card to the guide piece from the second conveying end, and the guide piece extends along the direction from the second conveying end to the first conveying end and inclines towards one side far away from the conveying assembly along the gravity direction, so that the guide piece can guide and convey the reagent card. This carry the module through setting up the direction of delivery that the guide changes the reagent card in carrying the module, make full use of carries the vertical space of module to reduce and carry the length size of module on the horizontal direction, thereby make and carry the module and have compacter structure, be convenient for accomodate and transport. Through set up above-mentioned compact structure's transport module in check out test set, can make check out test set have compacter structure to make check out test set have less volume, it is convenient to accomodate, and the transportation is convenient.

Drawings

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

Wherein:

fig. 1 is a perspective view of a detection apparatus in an embodiment of the present invention;

FIG. 2 is an enlarged view of detail A of FIG. 1;

fig. 3 is a side sectional view of a detection apparatus in an embodiment of the present invention;

FIG. 4 is an enlarged view of detail B of FIG. 3;

fig. 5 is a perspective view of an apparatus carrier in an embodiment of the present invention;

fig. 6 is a perspective view of a guide assembly in an embodiment of the present invention;

in the figure:

10. a conveying module;

100. a delivery assembly; 110. a carrier; 111. a first delivery end; 112. a second delivery end; 120. a drive member;

200. a guide member;

300. a carrier; 310. a top plate; 320. a side plate; 330. a base plate; 340. an accommodating space;

400. a storage bin;

500. a push-out assembly; 510. ejecting the part;

600. a detection component;

20. and (4) reagent cards.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides a transport module 10, transport module 10 is used for carrying reagent card 20, and this transport module 10 includes transport assembly 100 and guide 200, and transport assembly 100 is used for carrying reagent card 20, and guide 200 is used for leading the reagent card of transport assembly 100 output to change the direction of delivery of reagent card 20.

Specifically, as shown in fig. 2 to 4, the transport assembly 100 has a first transport end 111 and a second transport end 112, and the transport assembly 100 is used for transporting the reagent card 20 along the direction from the first transport end 111 to the second transport end 112; a guide member 200 is provided at the second delivery end 112, the guide member 200 being used to guide the reagent cards 20 delivered by the second delivery end 112; at least a portion of the structure of the guide member 200 extends in the direction from the second conveying end 112 to the first conveying end 111, and is inclined in the direction of gravity toward the side away from the conveying assembly 100.

When the transport module 10 is used, the reagent card 20 is firstly transported into the transport module 10 from the first transport end 111, the transport module 10 transports the reagent card 20 along the direction from the first transport end 111 to the second transport end 112, and the reagent card 20 is transported out from the second transport end 112 onto the guide member 200, because the guide member 200 extends along the direction from the second transport end 112 to the first transport end 111 in the horizontal direction, and the guide member 200 extends obliquely towards the side away from the transport module 100 in the gravity direction, the guide member 200 can guide and transport the reagent card 20. This transport module 10 changes the direction of delivery of reagent card 20 in carrying module 10 through setting up guide 200, and the vertical space of make full use of transport module 10 to reduce the length dimension of carrying module 10 on the horizontal direction, thereby make and carry module 10 to have more compact structure, be convenient for accomodate and transport.

As shown in fig. 3 and 6, in the first embodiment, the inclined direction of the guide 200 and the direction from the second conveying end 112 to the first conveying end 111 form a first included angle, and the first included angle ranges from 20 ° to 30 °.

In the present embodiment, the extending direction of the guide 200 in the horizontal direction is from the second conveying end 112 to the first conveying end 111, and the guide 200 is inclined toward the side away from the conveying assembly 100 along the gravity direction; after the reagent cards 20 fall down on the guide member 200 by gravity, the guide member 200 can change the transport direction of the reagent cards 20 from the first transport end 111 to the second transport end 112 to the inclined direction of the guide member 200, as shown in the presentation state of fig. 3, i.e., transport the reagent cards 20 toward the horizontal left direction at an angle of 20 ° to 30 °, until the reagent cards 20 are separated from the guide member 200. Specifically, the guide 220 may be made of a hard material such as a stainless steel plate or an acrylic plate, and is not limited herein.

As shown in fig. 1 and 5, the conveying module 10 further includes a carrier 300, wherein the carrier 300 is used for mounting the conveying assembly 100 and the guide member 200; specifically, the carrier 300 includes a top plate 310, a side plate 320, and a bottom plate 330, the top plate 310, the side plate 320, and the bottom plate 330 enclose a receiving space 340, the conveying assembly 100 is disposed on a side of the top plate 310 away from the bottom plate 330, and the guide 200 is connected to the top plate 310.

As shown in fig. 1 and 2 in particular, the transport assembly 100 includes a carrier 110 and a driving member 120, the carrier 110 is used for accommodating the reagent card 20, and opposite ends of the carrier 110 are a first transport end 111 and a second transport end 112 respectively; in the arrangement state shown in fig. 3, the first conveying end 111 is located at the left side of the carrier 110, and the second conveying end 112 is located at the right side of the carrier 110; the driving member 120 is used for driving the reagent cards 20 in the carrier 110 to move along the direction from the first transporting end 111 to the second transporting end 112, and the reagent cards 20 output by the second transporting end 112 can fall onto the guide member 200 under the action of gravity.

In one embodiment, the driving member 120 is a combination of a driving motor, a lead screw and a pushing block, the lead screw is matched with the pushing block, the extending direction of the lead screw is parallel to the direction from the first conveying end 111 to the second conveying end 112, and the output end of the driving motor is connected to the lead screw and is used for driving the lead screw to rotate, the lead screw can drive the pushing block to move after rotating, and the pushing block can drive the reagent card 20 in the bearing member 110 to move when moving.

In other embodiments, the driving member 120 may also be a combination of an electric push rod and a push plate, wherein an output end of the electric push rod is connected to the push plate, and the electric push rod can drive the push plate to push the reagent card 20 to move after being activated, so as to output the reagent card 20 out of the carrier 110 through the second transporting end 112.

Further, as shown in fig. 1 and 3, the conveying module 10 further includes a receiving bin 400; the accommodating bin 400 is arranged at the lower side of the guide member 200 in the gravity direction, and the accommodating bin 400 is used for accommodating the reagent cards 20 output by the guide member 200; the accommodation bin 400 is disposed in the accommodation space 340.

It can be understood that, in the arrangement state shown in fig. 3, by providing the housing 400 at the lower side of the guide member 200, the reagent card 20 guided by the guide member 200 can be dropped into the housing 400. When the reagent cards 20 in the accommodating bin 400 need to be taken out, the reagent cards 20 in the accommodating bin 400 can be uniformly recovered by transferring the accommodating bin 400, and the operation is convenient

Further, the magazine 400 is provided to move relative to the guide 200, and when the magazine 400 moves to the receiving position, the magazine 400 can receive the reagent card 20 output from the guide 200. In the arrangement state shown in fig. 3, the accommodating compartment 400 can move left or right in the horizontal direction; when the reagent card 20 in the storage bin 400 needs to be taken out, the storage bin 400 is moved towards the left side, so that the storage bin 400 is separated from the receiving position, an operator can take out the reagent card 20 in the storage bin 400 from the input bin opening, and the operation is convenient and fast. In one embodiment, the guide 200 is connected to the carrier 300, and the receiving compartment 400 is slidably connected to the carrier 300 by a sliding rail.

As shown in fig. 3, the conveying module 10 further includes a pushing-out assembly 500, wherein the pushing-out assembly 500 is used for driving the accommodating compartment 400 to move along the direction from the second conveying end 112 to the first conveying end 111. Specifically, as shown in fig. 3, the pushing-out assembly 500 is disposed at the right side of the accommodating compartment 400, and when the reagent cards 20 in the accommodating compartment 400 are taken out, the pushing-out assembly 500 can drive the accommodating compartment 400 to move towards the left side, so that the accommodating compartment 400 leaves the receiving position, and an operator can take the reagent cards 20 in the accommodating compartment 400 conveniently and conveniently.

As shown in fig. 3, in one embodiment, the pushing assembly 500 includes an ejector 510, an elastic member and a positioning member, the ejector 510 is connected to the elastic member, and the elastic member is used to drive the ejector 510 to move along the direction from the second transporting end 112 to the first transporting end 111, so that the ejector 510 drives the receiving bin 400 to move; the positioning member is disposed to move relative to the ejector 510, and the positioning member is used to position the ejector 510.

Specifically, in this embodiment, the ejecting member 510 has a first channel, a blocking position and a second channel, the extending direction of the first channel is parallel to the extending direction of the second channel, and both the extending direction of the first channel and the extending direction of the second channel are parallel to the direction from the first transporting end 111 to the second transporting end 112; the screens are connected respectively in first passageway and second passageway in order to form transfer passage, and form the ladder between first passageway and the screens, form the ladder between screens and the second passageway, and the setting element can get into transfer passage by first passageway, and the setting element carries along first passageway, screens and second transfer passage at transfer passage, and the setting element can be spacing in the screens.

When the accommodating bin 400 faces the receiving position, as shown in the placing state shown in fig. 3, firstly, pushing force is applied to the accommodating bin 400 towards the right side and the accommodating bin 400 is pushed to move, the accommodating bin 400 pushes the ejecting member 510 to move towards the right side, the ejecting member 510 pushes and compresses the elastic member, the elastic member stores elastic potential energy, at this time, the positioning member enters the conveying channel from the first channel, after the pushing force is removed, the positioning member is clamped at the clamping position, so that the ejecting member 510 can be relatively fixed with the carrier 300, and the accommodating bin 400 is located at the receiving position; when the containing bin 400 needs to move towards the left side, the containing bin 400 is firstly pushed towards the right side to move, the containing bin 400 drives the ejection piece 510 to move towards the right side, the positioning piece is separated from the clamping position and moves to the second channel, the elastic piece releases elastic potential energy and pushes the ejection piece 510 to move towards the left side, then the containing bin 400 can be driven to move towards the left side through the ejection piece 510, and the positioning piece is output from the second channel to the conveying channel.

In the second embodiment, the present embodiment is different from the first embodiment in that the guide 200 and the conveying assembly 100 are relatively rotatably disposed, and a second included angle is formed between the inclined direction of the guide 200 and the direction from the second conveying end 112 to the first conveying end 111, and the angle of the second included angle is not greater than 90 °.

It can be understood that, when the transport module 10 of the present embodiment is implemented, the angle value of the second included angle can be changed by adjusting the inclination direction of the guide 200, so as to change the guiding direction of the guide 200, and the reagent card 20 can be transported toward different directions by being guided by the guide 200 of the present embodiment.

Further, the transport module 10 further includes a stopper for limiting the reagent card 20 in the transport assembly 100 when the receiving compartment 400 leaves the receiving position.

In one embodiment, the rotation axis of the guide 200 extends in a horizontal direction, and the rotation axis is perpendicular to the direction from the first conveying end 111 to the second conveying end 112; the limiting member is connected to the accommodating chamber 400, and the limiting member is used for abutting against the guide member 200 when the accommodating chamber 400 leaves the receiving position, so that the guide member 200 limits the reagent card 20 in the transport assembly 100.

It can be understood that, when the receiving chamber 400 leaves the receiving position, the limiting member moves along with the movement of the receiving chamber 400, and during the movement of the limiting member, the limiting member contacts with the guiding member 200, as shown in the placing state shown in fig. 3, the limiting member abuts against the lower side surface of the guiding member 200, during the movement of the limiting member, a sliding occurs between the limiting member and the guiding member 200, and the guiding member 200 is further pushed to rotate clockwise; in one embodiment, after the receiving bin 400 leaves the receiving position, that is, after the receiving bin 400 cannot receive the reagent card 20 output by the guiding element 200, the limiting element drives the guiding element 200 to rotate to the horizontal position, and the guiding element 200 abuts against the second transporting end 112 of the carrier 110, so as to limit the reagent card 20 in the carrier 110.

In other embodiments, the guiding element 200 may be located at the lower side of the second transporting end 112 in the direction of gravity, and the reagent card 20 output by the second transporting end 112 falls on the top surface of the guiding element 200 under the action of gravity and cannot fall into the accommodating chamber 400.

The utility model discloses still include a check out test set, this check out test set is used for detecting reagent card 20, as shown in fig. 1 and fig. 3, check out test set includes transport module 10 and determine module 600 in any embodiment above, and determine module 600 is used for detecting reagent card 20 between first delivery end 111 to second delivery end 112.

When the detection device is used, the reagent card 20 is inserted into the carrier 110 from the first conveying end 111, the driving member 120 drives the reagent card 20 to move to the detection position along the direction from the first conveying end 111 to the second conveying end 112, and the detection assembly 600 can detect the reagent card 20 at the detection position; after the detection is completed, the driving member 120 drives the reagent card 20 to move continuously and output from the second delivery end 112. Through set up above-mentioned compact structure's transport module 10 in check out test set, can make check out test set have compacter structure to make check out test set have less volume, it is convenient to accomodate, and the transportation is convenient.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides a carry module for carry reagent card, its characterized in that includes:

a transport assembly having a first transport end and a second transport end, the transport assembly for transporting reagent cards in a direction from the first transport end to the second transport end; and

the guide piece is arranged at the second conveying end and used for guiding the reagent cards output by the second conveying end; at least part of the structure of the guide member extends along the direction from the second conveying end to the first conveying end and inclines towards one side far away from the conveying assembly along the gravity direction.

2. The transport module of claim 1, further comprising a receiving compartment disposed at a lower side of the guide member in a direction of gravity, the receiving compartment configured to receive the reagent card output by the guide member.

3. The transfer module of claim 2, wherein the receiving bin is movably disposed relative to the guide; when the containing bin moves to the receiving position, the containing bin can contain the reagent cards output by the guide piece.

4. The transfer module of claim 3, further comprising an ejection assembly for driving movement of the cartridge in a direction from the second transfer end to the first transfer end.

5. The conveying module according to claim 4, wherein the ejecting assembly comprises an ejecting member, an elastic member and a positioning member, the ejecting member is connected to the elastic member, and the elastic member is used for driving the ejecting member to move along the direction from the second conveying end to the first conveying end, so that the ejecting member drives the accommodating chamber to move; the locating part with the setting of ejector member relative movement, just the locating part is used for right the ejector member is fixed a position.

6. The conveying module according to any one of claims 1-5, wherein the direction of inclination of the guide member and the direction from the second conveying end to the first conveying end have a first angle therebetween, the first angle being in the range of 20 ° to 30 °.

7. The conveying module according to any one of claims 3 to 5, wherein the guide member is rotatably disposed relative to the conveying assembly, and the guide member is inclined at a second included angle with respect to the direction from the second conveying end to the first conveying end, and the second included angle is not greater than 90 °.

8. The transport module of claim 7, further comprising a stop for stopping a reagent card when the cartridge is moved from the receiving position.

9. The transport module of claim 8, wherein the axis of rotation of the guide extends in a horizontal direction and is perpendicular to the direction from the first transport end to the second transport end; the limiting part is connected to the containing bin and is used for abutting against the guide part when the containing bin leaves the receiving position, so that the guide part limits the reagent card in the conveying assembly.

10. An assay device for assaying reagent cards, comprising the delivery module of any one of claims 1-9.

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