CN114272971A - Device for conveying and fixing blood collection tube and using method - Google Patents

Abstract

The invention discloses a device for conveying and fixing a blood collection tube and a using method, and belongs to the technical field of medical instruments. The device comprises a sample frame, a fixed chute, a spring piece pressing plate, a spring piece and a guide rail; the upper surface of the sample rack is provided with a plurality of cylindrical sample grooves in parallel, the bottom of the sample rack is provided with a fixed sliding groove, the front end of the fixed sliding groove is provided with a strong magnet and a light guide column which penetrates through the strong magnet, and the inner side of the tail end of the fixed sliding groove is provided with a positioning groove; the spring piece pressing plate is provided with a plurality of spring pieces which are in one-to-one correspondence with the sample grooves; the guide rail front end is equipped with the magnetic induction pilot lamp, and the guide rail end is provided with the bulb plunger with constant head tank complex. Compared with the existing sample tank, the blood collection tube is more firmly fixed, and the clamping structure is convenient to disassemble and sterilize, so that the blood collection tube is more convenient to maintain; through setting up the magnetic induction pilot lamp, can show clearly whether location is accurate between sample frame and the guide rail, avoid the risk that the landing appears in the sample frame.

Description

Device for conveying and fixing blood collection tube and using method

Technical Field

The invention relates to the technical field of medical instruments, in particular to a device for conveying and fixing a blood collection tube and a using method thereof.

Background

The heparin tube is used for gathering, storing, transports human blood, when needs carry out a large amount of blood sample collection, can produce a lot of heparin tubes, and these heparin tubes need paste the label and place on the sample frame to it is fixed and transportation. At present, the structures used to fix blood collection tubes are mainly of two types: one is that the sample rack adopts a tapered sample groove to fix the blood sampling tube, and when the tapered groove structure is used, the phenomenon that the blood sampling tube is inserted too tightly or loosened exists, so that the blood sampling tube is not easy to take and place and is easy to fall off; the other type is that a straight hole sample groove structure is adopted on the sample frame, a silica gel sheet is arranged in the sample groove, the blood sampling tube is clamped by the silica gel sheet inside, and the structure is fixed in place, cannot be fixed after the silica gel sheet is seriously abraded, and has the problems that the silica gel sheet is not easy to maintain and the like in actual use. In addition, after the sample frame is filled with the blood sampling tubes, the guide rails need to be inserted, and whether the existing guide rails and the sample frame are clamped in place in a sliding mode or not is not explicitly indicated. When the sample rack appears to be in place, but does not actually snap into place, there is a risk that the sample rack will fall off the slide.

In view of the above-mentioned drawbacks, the present designer has made active research and innovation to create a device for conveying and fixing blood collection tubes and a method for using the same, so that the device has industrial value.

Disclosure of Invention

The invention aims to provide a device for conveying and fixing a blood collection tube and a using method thereof, which can more firmly fix the blood collection tube in a sample groove, more clearly know whether the positioning is finished or not and avoid the falling risk.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a carry and fixed device to heparin tube, includes sample frame, fixed spout, spring leaf clamp plate, spring leaf, guide rail, wherein:

the upper surface of the sample rack is provided with a plurality of cylindrical sample grooves in parallel, the bottom of the sample rack is provided with the fixed sliding groove, the front end of the fixed sliding groove is provided with a strong magnet and a light guide column which penetrates through the strong magnet, and the inner side of the tail end of the fixed sliding groove is provided with a positioning groove;

an observation groove is formed in one side of the sample groove, and a spring piece opening is formed in the other side of the sample groove;

the spring piece pressing plate is provided with a plurality of spring pieces which are in one-to-one correspondence with the sample grooves, the spring piece pressing plate is fixed on one side of the spring piece opening of the sample frame, and each spring piece extends into the corresponding sample groove from the spring piece opening;

the guide rail front end is equipped with the magnetic induction pilot lamp, the guide rail end be provided with constant head tank complex bulb plunger, when the constant head tank is gone into to the bulb plunger card, the strong magnet of fixed spout reachs the magnetic induction pilot lamp position, and the light of magnetic induction pilot lamp transmission is derived by the leaded light post.

As a preferable mode of the above device for conveying and fixing the blood collection tube, the guide rail is a T-shaped section guide rail, and the fixing chute is a C-shaped chute matched with the T-shaped section guide rail.

As a preferable mode of the device for conveying and fixing the blood collection tube, a wedge-shaped guide section which is convenient for the fixing chute to slide in is arranged at the front end of the guide rail.

As a preferable embodiment of the above device for conveying and fixing the blood collection tube, the lower end of the spring piece is fixed on the spring piece pressing plate, the upper end of the spring piece is bent into the sample groove to form an arc-shaped pressing part, and the upper part of the spring piece is bent into the sample groove to form a V-shaped elastic structure, so that the arc-shaped pressing part is opposite to the side surface of the blood collection tube in the sample groove.

In a preferred embodiment of the above device for transporting and fixing a blood collection tube, the sample holder has a pull ring at a front end thereof.

As a preferable scheme of the device for conveying and fixing the blood sampling tube, a silica gel pad buffer pad is arranged at the tail end of the guide rail and used for buffering when the sample rack exceeds a limited position.

As an optimized scheme of the device for conveying and fixing the blood collection tube, the upper surface of the guide rail is provided with a groove, an inverted V-shaped positioning spring piece protruding out of the surface of the guide rail is arranged in the groove, a second positioning groove matched with the inverted V-shaped positioning spring piece is arranged in the fixed chute, and when the ball plunger is clamped into the positioning groove, the inverted V-shaped positioning spring piece is clamped into the second positioning groove.

As an optimized scheme of the above device for conveying and fixing the blood collection tube, the magnetic induction indicator lamp comprises a controller, a hall sensor, an indicator lamp and a power supply, and the controller is electrically connected with the hall sensor, the indicator lamp and the power supply respectively.

The invention also provides a using method of the device for conveying and fixing the blood sampling tube, which comprises the following operation steps:

s1, pulling out the sample racks, placing blood collection tubes in the sample grooves one by one, pasting one-dimensional code labels on the sample grooves, pushing the sample racks into the device along the guide rail, and meanwhile, scanning the one-dimensional codes by using a laser scanner and transmitting information to computer application software for monitoring operation;

s2, judging whether the sample rack slides in place or not by utilizing the matching of the strong magnet and the magnetic induction indicating lamp, and if not, giving out light by the magnetic induction indicating lamp for indicating; if the sample rack slides in place, whether the sample rack is accidentally pulled out is judged, and if the sample rack is pulled out, the magnetic induction indicating lamp gives out light for indicating.

The invention has the beneficial effects that:

(1) the sample rack is provided with a plurality of cylindrical sample grooves, the blood collection tubes are clamped and fixed by the spring pieces after being placed in the sample grooves, the blood collection tubes are more firmly fixed relative to the existing sample grooves, the clamping structure is convenient to disassemble and sterilize, the maintenance is more convenient, and the internal state of the blood collection tubes can be checked through the observation groove on one side of the sample groove;

(2) by arranging the magnetic induction indicating lamp, whether the positioning between the sample rack and the guide rail is accurate can be clearly displayed, and the risk that the sample rack slides down is avoided;

(3) the front end of the guide rail is provided with a wedge-shaped leading-in section, so that the guide rail does not need to be accurately aligned during insertion, and can be automatically guided and aligned after being sleeved on the wedge-shaped leading-in section, and the operation is convenient.

Drawings

FIG. 1 is a schematic structural view of a device for transporting and fixing a blood collection tube according to an embodiment of the present invention;

fig. 2 is an exploded view of a device for transporting and fixing a blood collection tube according to an embodiment of the present invention;

FIG. 3 is a schematic view of the spring plate pressing plate and the spring plate according to the present invention;

FIG. 4 is a schematic view of the spring plate of the present invention;

FIG. 5 is a schematic view of the front end of the specimen holder according to the present invention;

FIG. 6 is a schematic view of the spring plate of the present invention after being detached from the sample holder;

FIG. 7 is a schematic view of a portion of the end of the guide rail of the present invention;

fig. 8 is a schematic circuit diagram of the magnetic induction indicator lamp of the present invention.

In the figure: 1-sample holder, 101-sample groove, 102-observation groove, 103-spring piece opening, 104-pull ring, 2-fixed sliding groove, 3-spring piece pressing plate, 4-spring piece, 401-arc pressing part, 402-V-shaped elastic structure, 5-guide rail, 501-wedge lead-in section, 502-inverted V-shaped positioning spring piece, 503-groove, 6-strong magnet, 7-light guide column, 8-magnetic induction indicator light, 9-ball plunger and 10-silica gel cushion.

Detailed Description

In order to make the technical problems solved, technical solutions adopted and technical effects achieved by the present invention clearer, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 to 8, the device for transporting and fixing a blood collection tube according to the present invention includes a sample holder 1, a fixing chute 2, a spring plate pressing plate 3, a spring plate 4, and a guide rail 5. Wherein, the upper surface of the sample rack 1 is provided with a plurality of cylindrical sample grooves 101 in linear parallel, the bottom of the sample rack 1 is screwed with a fixed chute 2, the front end of the fixed chute 2 is provided with a strong magnet 6 and a light guide column 7 which penetrates through the fixed chute 2, and the inner side of the tail end of the fixed chute 2 is provided with a positioning groove (shielded); an observation groove 102 is formed in one side of the sample groove 101, and a spring piece opening 103 is formed in the other side of the sample groove; a plurality of spring pieces 4 which are in one-to-one correspondence with the sample grooves 101 are fixed on the spring piece pressing plate 3 in a threaded manner, the spring piece pressing plate 3 is fixed on one side of a spring piece opening 103 of the sample frame 1 in a threaded manner, and each spring piece 4 extends into the corresponding sample groove 101 from the spring piece opening 103; 5 front ends of guide rail are equipped with magnetic induction pilot lamp 8, and 5 ends of guide rail are provided with and the constant head tank complex bulb plunger 9, and when the constant head tank was gone into to bulb plunger 9 card, the strong magnet 6 of fixed spout 2 reachd the 8 positions of magnetic induction pilot lamp, and the light of 8 launches of magnetic induction pilot lamp is derived by leaded light post 7. The ball plunger 9 is a commercially available product, also called a spring plunger or a positioning ball/column, a spring is arranged in the screw thread, and the pretightening force is adjusted by controlling the screwing depth to realize the positioning function. In addition, the front end of the sample holder 1 is provided with a pull ring 104, which is convenient for manually pulling the sample holder 1 along the guide rail 5. The tail end of the guide rail 5 is provided with a silica gel pad buffering pad 10, and after the sample rack 1 crosses the installation position, the silica gel pad buffering pad 10 can buffer the sample rack 1.

As shown in fig. 5 and 8, the magnetic induction indicator light 8 includes a controller, a hall sensor, an indicator light, and a power supply, and the controller is electrically connected to the hall sensor, the indicator light, and the power supply, respectively. The Hall sensor is arranged in the guide rail 5, the surface of the guide rail 5 is covered with the Hall sensor by embedding martensitic stainless steel, the martensitic stainless steel can guide the magnetism of the strong magnet 6 into the Hall sensor below, so that a signal of the Hall sensor is triggered, and the controller controls the indicator lamp to be on after receiving the signal; the pilot lamp can directly expose on guide rail 5, also can be embedded inside guide rail 5, derives light through embedded at 5 upper surface light guide post 7 of guide rail, and the light that launches from guide rail 5 sees through the light guide post 7 that runs through on the fixed spout 2, will instruct light to show the upper surface at sample frame 1. The controller can adopt an MCU (microprogrammed control Unit) or a PLC (programmable logic controller).

As for the structure of the guide rail 5, as shown in fig. 2 and 7, the guide rail 5 is a T-shaped section guide rail, and the fixed chute 2 is a C-shaped chute fitted to the T-shaped section guide rail. The T-shaped section guide rail is matched with the C-shaped sliding groove, so that the sample rack 1 can be firmly fixed on the guide rail 5. As can be seen from fig. 2 and 5, the guide rail 5 is provided at its front end with a wedge-shaped lead-in 501 for the sliding-in of the fixed chute 2. The front end of the guide rail 5 is provided with a wedge-shaped leading-in section 501, and the fixed chute 2 can be automatically guided and aligned after being sleeved on the wedge-shaped leading-in section 501, so that the operation is convenient. As shown in fig. 7, a groove 503 is formed in the upper surface of the guide rail 5, an inverted V-shaped positioning spring piece 502 protruding out of the surface of the guide rail 5 is disposed in the groove 503, a second positioning groove (shielded) matched with the inverted V-shaped positioning spring piece 502 is disposed in the fixed chute 2, and when the ball plunger 9 is inserted into the positioning groove, the inverted V-shaped positioning spring piece 502 is inserted into the second positioning groove. An inverted V-shaped positioning spring piece 502 is added and clamped into the second positioning groove to form a second positioning and fixing structure, so that the sample rack 1 is positioned more firmly and is not easy to shift.

With regard to the structure of the spring plate 4, as shown in fig. 4, the lower end of the spring plate 4 is fixed on the spring plate pressing plate 3, the upper end of the spring plate 4 is bent into the sample groove 101 to form an arc-shaped pressing portion 401, and the upper portion of the spring plate 4 is bent into the sample groove 101 to form a V-shaped elastic structure 402, so that the arc-shaped pressing portion 401 is directly opposite to the side surface of the blood collection tube in the sample groove 101. This spring leaf 4 structure can make things convenient for the heparin tube plug to press from both sides tightly, can not scratch the heparin tube body.

The working principle is as follows:

the fixed chute 2 is connected with the sample rack 1 through a bolt. The spring piece 4 is fixed on the spring piece pressing plate 3 through a bolt, and then the whole is fixed on the sample frame 1 through the bolt. When the blood collection tube is inserted into the sample groove 101 of the sample holder 1, the arc-shaped pressing portion 401 of the spring piece 4 clamps the blood collection tube; when the blood sampling tube is pulled out, the V-shaped elastic structure 402 of the spring plate 4 slowly pushes out the blood sampling tube when the external force is larger than the clamping force of the spring plate 4.

When the sample rack 1 slides along the propelling direction, good direction stability can be kept under the guidance of the T-shaped structure of the guide rail 5; when the guide rail 5 is pushed to the tail end, the round head of the ball plunger 9 on the guide rail 5 can be embedded into the positioning groove of the fixed sliding chute 2, so that the function of accurate positioning is achieved. The tail end of the whole device is also provided with a silica gel pad buffering pad 10 which plays a role in damping and buffering when the sample frame 1 is forced to exceed a preset position excessively.

When the sample rack 1 slides in place, the Hall sensor is triggered through the strong magnet 6, so that the indicator lamp is lightened through the controller, and the current position state of the sample rack 1 can be acquired according to the state of the indicator lamp.

Sample frame 1 sets up a plurality of columniform sample grooves 101, and after sample groove 101 was put into to the heparin tube, it was fixed to be pressed from both sides by spring leaf 4 clamp, and for current sample groove 101, the heparin tube is fixed more firmly, presss from both sides the sterilization disinfection behind the convenient to detach of structure moreover, and it is more convenient to maintain, through the observation groove 102 of sample groove 101 one side, and observation groove 102 is the upper shed bar groove, can look over heparin tube internal state.

Through setting up magnetic induction pilot lamp 8, can show clearly whether location is accurate between sample frame 1 and the guide rail 5, avoid sample frame 1 the risk that the landing appears.

The use method of the device for conveying and fixing the blood sampling tube comprises the following operation steps:

s1, pulling out the sample rack 1, placing the blood collection tubes in each sample groove 101 one by one, pasting one-dimensional code labels on the sample grooves 101, pushing the sample rack 1 into the device along the guide rail 5, and meanwhile, scanning the one-dimensional codes by using a laser scanner and transmitting information to computer application software for monitoring operation;

s2, judging whether the sample rack 1 slides in place or not by utilizing the matching of the strong magnet 6 and the magnetic induction indicator lamp 8, and if not, giving out light for indication by the magnetic induction indicator lamp 8; if the sample rack slides in place, whether the sample rack 1 is accidentally pulled out is judged, and if the sample rack is pulled out, the magnetic induction indicating lamp 8 emits light for indicating.

In summary, the device and method for conveying and fixing a blood collection tube according to the present invention can more firmly fix the blood collection tube in the sample tank 101, and can more clearly know whether the positioning is completed, thereby avoiding the risk of dropping.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (9)

1. The utility model provides a carry and fixed device to heparin tube which characterized in that, includes sample frame (1), fixed spout (2), spring leaf clamp plate (3), spring leaf (4), guide rail (5), wherein:

a plurality of cylindrical sample grooves (101) are arranged in parallel on the upper surface of the sample rack (1), the fixed sliding groove (2) is installed at the bottom of the sample rack (1), a strong magnet (6) and a light guide column (7) penetrating through the strong magnet are arranged at the front end of the fixed sliding groove (2), and a positioning groove is formed in the inner side of the tail end of the fixed sliding groove (2);

an observation groove (102) is formed in one side of the sample groove (101), and a spring piece opening (103) is formed in the other side of the sample groove;

the spring piece pressing plate (3) is provided with a plurality of spring pieces (4) which correspond to the sample grooves (101) one by one, the spring piece pressing plate (3) is fixed on one side of a spring piece opening (103) of the sample frame (1), and each spring piece (4) extends into the corresponding sample groove (101) from the spring piece opening (103);

guide rail (5) front end is equipped with magnetic induction pilot lamp (8), guide rail (5) end be provided with constant head tank complex bulb plunger (9), when bulb plunger (9) card goes into the constant head tank, the strong magnet (6) of fixed spout (2) reachs magnetic induction pilot lamp (8) position, and the light of magnetic induction pilot lamp (8) transmission is derived by leaded light post (7).

2. The device for conveying and fixing blood collection tubes according to claim 1, wherein the guide rail (5) is a T-section guide rail, and the fixing chute (2) is a C-shaped chute cooperating with the T-section guide rail.

3. The device for conveying and fixing the blood collection tube according to claim 1 or 2, wherein the front end of the guide rail (5) is provided with a wedge-shaped introduction section (501) for facilitating the sliding of the fixing chute (2).

4. The device for conveying and fixing the blood collection tube according to claim 1, wherein the lower end of the spring piece (4) is fixed on the spring piece pressing plate (3), the upper end of the spring piece (4) is bent inwards the sample groove (101) to form an arc-shaped pressing part (401), and the upper part of the spring piece (4) is bent inwards the sample groove (101) to form a V-shaped elastic structure (402), so that the arc-shaped pressing part (401) is opposite to the side surface of the blood collection tube in the sample groove (101).

5. A device for conveying and fixing a blood collection tube according to claim 1, wherein the sample holder (1) is provided with a pull ring (104) at a front end thereof.

6. A device for transporting and fixing blood collection tubes according to claim 1, wherein the guide rails (5) are provided at their ends with silicone pad buffers (10) for buffering when the sample holders (1) are beyond a defined position.

7. The device for conveying and fixing the blood collection tube according to claim 1, wherein the guide rail (5) is provided with a groove (503) on the upper surface, an inverted V-shaped positioning spring piece (502) protruding out of the surface of the guide rail is arranged in the groove (503), a second positioning groove matched with the inverted V-shaped positioning spring piece (502) is arranged in the fixing chute (2), and when the ball plunger (9) is clamped into the positioning groove, the inverted V-shaped positioning spring piece (502) is clamped into the second positioning groove.

8. The device for conveying and fixing the blood collection tube according to claim 1, wherein the magnetic induction indicator lamp (8) comprises a controller, a Hall sensor, an indicator lamp and a power supply, and the controller is electrically connected with the Hall sensor, the indicator lamp and the power supply respectively.

9. Use of a device for transporting and fixing blood collection tubes according to any one of claims 1 to 8, comprising the operating steps of:

s1, pulling out the sample rack (1), placing blood collection tubes in each sample groove (101) one by one, pasting one-dimensional code labels on the sample grooves (101), pushing the sample rack (1) into the device along the guide rail (5), and simultaneously scanning the one-dimensional codes by using a laser scanner and transmitting information to computer application software for monitoring operation;

s2, judging whether the sample rack (1) slides in place or not by utilizing the matching of the strong magnet (6) and the magnetic induction indicator lamp (8), and if not, giving out light to the magnetic induction indicator lamp (8) for indication; if the sample rack slides in place, whether the sample rack (1) is accidentally pulled out is judged, and if the sample rack is pulled out, the magnetic induction indicating lamp (8) emits light for indicating.

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