CN215767919U - Prevent that blood from solidifying with shaking even testing stand - Google Patents

Abstract

The utility model discloses a shaking-up detection frame for preventing blood coagulation, which comprises a containing frame and a first storing plate, wherein a baffle is arranged on one side of the containing frame, a group of slide rods are arranged on the opposite inner walls of the baffle and the containing frame, a movable block and a driven U-shaped block at the top of the movable block are slidably arranged on the outer wall of each slide rod, the first storing plate is slidably arranged inside the driven U-shaped block, holes are formed in the top of the first storing plate in a rectangular distribution manner, a plurality of fixed magnetic poles and movable magnetic poles are arranged at the top of the first storing plate, a fixed shaft is arranged on one side of the driven U-shaped block, and the fixed shaft is connected with a rotating wheel through a connecting rod; the inner wall of the rotating wheel is connected with an output shaft of the motor through a key; the utility model integrates storage, shaking and detection into a whole, has compact structure and simple operation, can store one storage plate when the previous storage plate is shaken to be detected by the layered design, can continuously shake different samples to be detected, and effectively improves the detection efficiency and accuracy of the samples to be detected.

Description

Prevent that blood from solidifying with shaking even testing stand

Technical Field

The application relates to the field of medical equipment, especially, relate to a prevent that blood from solidifying with shaking even testing stand.

Background

Blood inspection is the important component part of disease inspection clinically, inspects, analyzes through each item index to blood, can learn the information that can't obtain through apparent or the mode of physics throwing to can diagnose multiple disease, the blood sampling frame of splendid attire heparin tube commonly used at present is similar with the test-tube rack, all sets up a plurality of holes of placing on a support body, is used for placing the heparin tube.

However, the current blood test tube storage rack is in a static state, and when a blood sample in the test tube is statically placed for a long time, the blood sample can be precipitated or coagulated, so that the accuracy of blood detection can be caused.

Disclosure of Invention

The utility model aims to: the utility model provides a prevent that blood from solidifying with shaking even test stand, can appear deposiing or solidifying after having solved the long-time static placement of the inside blood sample of test tube, can lead to the problem of the degree of accuracy of blood detection when detecting.

The technical scheme of the utility model is as follows: a shaking-up detection frame for preventing blood coagulation comprises a containing frame and a first storage plate, wherein a baffle is installed on one side of the containing frame, a group of slide rods are arranged on the opposite inner walls of the baffle and the containing frame, a movable block and a driven U-shaped block at the top of the movable block are slidably installed on the outer wall of each slide rod, the first storage plate is slidably arranged inside the driven U-shaped block, holes are formed in the top of the first storage plate in a rectangular distribution mode, a plurality of fixed magnetic poles and movable magnetic poles opposite to the fixed magnetic poles are arranged on two sides of the top of each hole, a fixed shaft is installed on one side of the driven U-shaped block, and the fixed shaft is connected with a rotating wheel through a connecting rod; the inner wall key of the rotating wheel is connected with an output shaft of the motor.

Preferably, the fixed axle is installed and the connection hairpin at the fixed axle outer wall is installed to one side of driven "U" shape piece, the one side that holds the frame is provided with the support frame and installs the frame that bears at the support frame top, the top of bearing the frame is provided with the motor, the output end key of motor is connected with the runner, the quarter department of runner rotates and is provided with the driving shaft and rotates the first connecting rod of installation with the driving shaft, the one end rotation that the runner was kept away from to the first connecting rod is provided with the driven shaft and rotates the second connecting rod of installation with the driven shaft, the one end and the connection hairpin fixed connection of second connecting rod.

The motor rotates, and the runner can drive connecting rod and subassembly motion, because the connecting rod subassembly is connected at the fixed axle outer wall of driven "U" type piece one side through connecting the hairpin, consequently lateral shifting can be realized to driven "U" type piece under the rotation of motor, shakes even work to the first blood sample of depositing the inboard inside test tube of the inside joint of driven "U" type piece.

Preferably, a group of mounting blocks are arranged on the outer walls of two sides of the opening of the driven U-shaped block, a rotating block is rotatably mounted on the outer end face of each mounting block, and a bolt is spirally arranged at one end of each rotating block. Rotatory piece and bolt cooperation are fixed the first deposit plate of the inside joint of driven "U" shape piece to a deposit plate disengaging device when shaking even work is avoided.

Preferably, a fixing frame is arranged at the middle lower part of the inner wall of the containing frame, and a second containing plate is arranged in the fixing frame in a sliding mode. Can shake even detection achievement back and can exchange the position with the second storage plate at first storage plate, shake even detection achievement to the inside blood sample of test tube on the second storage plate again, other test tube storage racks can be deposited to the mount.

Preferably, the bottom of the fixed magnetic pole is fixedly connected with the top of the first containing plate, the outer wall of the fixed magnetic pole is provided with a first fixed block and a first anti-slip block arranged on the top of the first fixed block, the movable magnetic pole is in sliding fit with the top of the first containing plate, the outer wall of the movable magnetic pole is provided with a second fixed block and a second anti-slip block arranged on the top of the second fixed block, and the fixed magnetic pole and the movable magnetic pole are opposite magnetic poles.

The first non-slip shoe of fixed magnetic pole top is pressed through a finger, and the second non-slip shoe of activity magnetic pole top is pressed to another finger and slides, can be because of magnetic attraction when two magnetic poles are close to, press from both sides the test tube of the relative one side of two magnetic poles tightly, can not lead to the test tube to break away from the position because of fixed unstable when shaking even work.

Preferably, the fixed magnetic pole and the movable magnetic pole are provided with soft pads on opposite sides, and test tubes are arranged on opposite sides of the soft pads. The test tube is held by the soft cushion, and the test tube is damped when shaking up, so that the test tube cannot be damaged by the hard material of the magnetic pole.

Preferably, screw holes are formed in one side of the first storage plate and one side of the second storage plate. The bolt is matched with the screw hole to fix the first storage plate.

Preferably, a handle is mounted on one side of the first storage plate and the second storage plate. The first storage plate and the second storage plate can be more conveniently pulled out through the handle.

Compared with the prior art, the utility model has the beneficial effects that:

1. this device collection is deposited, is shaken even and is detected as an organic whole, compact structure, easy operation, and the design of layering can deposit down one and deposit the board when last board of depositing shakes even detection achievement, can shake even to the different samples that await measuring in succession, has improved the detection efficiency and the degree of accuracy of the sample that awaits measuring effectively.

2. According to the utility model, after the shaking-up detection work of the first storage plate is completed, the first storage plate and the second storage plate can be exchanged in position, then the shaking-up detection work is carried out on the blood samples in the test tubes on the second storage plate, the fixing frame can be used for storing other test tube storage frames, and the shaking-up work can be carried out on the blood samples in the test tubes on the test tube storage plates in sequence, so that the problem that the blood samples in the tubes are precipitated or coagulated after being statically placed for a long time, and the blood detection accuracy can be possibly caused is solved, and the working efficiency is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, 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 the drawings without creative efforts.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the position of A in the present invention;

FIG. 3 is a schematic top view structural diagram of the present invention;

FIG. 4 is a schematic view of the sliding assembly of the present invention;

FIG. 5 is a schematic view of the storage rack hierarchy of the present invention;

FIG. 6 is an enlarged view of the position A of the present invention;

FIG. 7 is an enlarged view of the position B of the present invention;

wherein: 1. a containing rack; 2. a baffle plate; 3. a movable block; 4. a driven "U" shaped block; 5. a first storage plate; 6. fixing the magnetic pole; 7. a first fixed block; 8. a first anti-skid block; 9. a live magnetic pole; 10. a second fixed block; 11. a second anti-skid block; 12. a soft cushion; 13. a test tube; 14. a fixed shaft; 15. a connecting hairpin; 16. a first link; 17. a second link; 18. a driven shaft; 19. a rotating wheel; 20. a drive shaft; 21. a motor; 22. a carrier; 23. a support frame; 24. a fixed mount; 25. a second storage plate; 26. mounting blocks; 27. rotating the block; 28. a bolt; 29. a screw hole; 30. a handle; 31. a slide bar.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present invention. The conditions used in the examples may be further adjusted according to specific conditions, and the conditions used in the experiments are not specifically mentioned.

As shown in fig. 1, 2, 4, 6 and 7, the shaking-up detection frame for preventing blood coagulation comprises a containing frame 1 and a first containing plate 5, wherein a baffle 2 is installed on one side of the containing frame 1, a group of slide rods 31 are arranged on the opposite inner walls of the baffle 2 and the containing frame 1, a movable block 3 and a driven U-shaped block 4 at the top of the movable block 3 are slidably installed on the outer wall of each slide rod 31, the first containing plate 5 is slidably installed inside the driven U-shaped block 4, holes are formed in the top of the first containing plate 5 in a rectangular distribution mode, a plurality of fixed magnetic poles 6 and movable magnetic poles 9 opposite to the fixed magnetic poles 6 are arranged on two sides of the top of each hole, a fixed shaft 14 is installed on one side of each driven U-shaped block 4, and the fixed shaft 14 is connected with a rotating wheel 19 through a connecting rod; the inner wall of the runner 19 is keyed with the output shaft of a motor 21.

In this embodiment, a fixed shaft 14 and a connecting fork 15 installed on the outer wall of the fixed shaft 14 are installed on one side of the driven U-shaped block 4, a supporting frame 23 and a bearing frame 22 installed on the top of the supporting frame 23 are installed on one side of the containing frame 1, a motor 21 is installed on the top of the bearing frame 22, a rotating wheel 19 is connected to an output end key of the motor 21, a driving shaft 20 and a first connecting rod 16 rotatably installed with the driving shaft 20 are rotatably installed at one quarter of the rotating wheel 19, a driven shaft 18 and a second connecting rod 17 rotatably installed with the driven shaft 18 are rotatably installed at one end of the first connecting rod 16 far away from the rotating wheel 19, and one end of the second connecting rod 17 is fixedly connected with the connecting fork 15; the bottom of the fixed magnetic pole 6 is fixedly connected with the top of the first containing plate 5, the outer wall of the fixed magnetic pole 6 is provided with a first fixed block 7 and a first anti-skid block 11 arranged on the top of the first fixed block 7, the movable magnetic pole 9 is in sliding fit with the top of the first containing plate 5, the outer wall of the movable magnetic pole 9 is provided with a second fixed block 10 and a second anti-skid block 11 arranged on the top of the second fixed block 10, and the fixed magnetic pole 6 and the movable magnetic pole 9 are opposite magnetic poles; the outer wall of driven "U" shape piece 4 opening part both sides is provided with a set of installation piece 26, and the outer terminal surface of installation piece 26 rotates installs rotatory piece 27, and the one end spiral of rotatory piece 27 is provided with bolt 28, and screw 29 has been seted up to one side of first board 5 and the second board 25 of depositing.

The test tube to be uniformly shaken and detected is placed in a hole formed in a test tube storage plate by a worker, one finger presses a first anti-slip block above a fixed magnetic pole, the other finger presses a second anti-slip block above a movable magnetic pole and slides, when the two magnetic poles are close to each other, the test tubes on the opposite surfaces of the two magnetic poles are sequentially clamped due to magnetic attraction, and the test tubes cannot be separated from the positions due to unstable fixation during uniform shaking; pushing the storage plate with the fixed test tube into the driven U-shaped block, shifting the rotating blocks arranged on one side of the mounting blocks on two sides of the opening of the driven U-shaped block, and fixing the storage plate inside the driven U-shaped block through the matching of the bolts and the screw holes; the connecting rod and the component are driven to move by starting the motor rotating wheel, and the connecting rod component is connected to the outer wall of the fixed shaft on one side of the driven U-shaped block through the connecting hairpin, so that the driven U-shaped block can transversely move under the rotation of the motor, and the blood sample in the test tube on the first storage plate clamped in the driven U-shaped block is uniformly shaken; after the shaking up work is finished, the detection of the blood sample can be directly carried out on the device nearby.

As shown in fig. 6, in this embodiment, the fixed magnetic pole 5 and the movable magnetic pole 9 are both provided with a soft pad 12 on the opposite side, and a test tube 13 is provided on the opposite side of the soft pad 12. The test tube is held by the soft cushion, and the test tube is damped when shaking up, so that the test tube cannot be damaged by the hard material of the magnetic pole.

As shown in fig. 1 and 5, in this embodiment, a fixing frame 24 is disposed at a middle lower portion of an inner wall of the containing frame 1, a second storing plate 25 is slidably disposed inside the fixing frame 24, and a handle 30 is mounted on one side of the first storing plate 5 and one side of the second storing plate 25.

After the shaking-up detection work of the first storage plate is finished, the first storage plate can be exchanged with the second storage plate in position, then the shaking-up detection work is carried out on the blood sample in the test tube on the second storage plate, and the fixing frame can be used for storing other test tube storage racks; the first storage plate and the second storage plate can be more conveniently pulled out through the handle.

Can exchange the position with the second storing plate after the even detection achievement that shakes of first storing plate, shake even detection achievement to the inside blood sample of test tube on the second storing plate again, other test tube storage rack can be deposited to the mount, can shake even work to the blood sample of test tube on the test tube storing plate in proper order, consequently can not appear depositing or solidifying after the long-time static of the inside blood sample of intraduct is put, thereby can lead to the problem of the degree of accuracy of blood detection, and work efficiency is high.

This device collection is deposited, is shaken even and is detected as an organic whole, compact structure, easy operation, and the design of layering can deposit down one and deposit the board when last board of depositing shakes even detection achievement, can shake even to the different samples that await measuring in succession, has improved the detection efficiency and the degree of accuracy of the sample that awaits measuring effectively.

The above is only a specific application example of the present invention, and the protection scope of the present invention is not limited in any way. In addition to the above embodiments, the present invention may have other embodiments. All technical solutions formed by using equivalent substitutions or equivalent transformations fall within the scope of the present invention.

Claims (8)

1. The utility model provides a prevent that blood solidifies with shaking even testing stand, is including holding frame (1) and first board (5) of depositing, its characterized in that: the magnetic field type magnetic field; the inner wall of the rotating wheel (19) is connected with an output shaft of a motor (21) in a key mode.

2. The shaking-up test stand for preventing blood coagulation according to claim 1, a fixed shaft (14) and a connecting fork (15) arranged on the outer wall of the fixed shaft (14) are arranged on one side of the driven U-shaped block (4), a supporting frame (23) and a bearing frame (22) arranged at the top of the supporting frame (23) are arranged at one side of the containing frame (1), the top of the bearing frame (22) is provided with a motor (21), the output end key of the motor (21) is connected with a rotating wheel (19), a driving shaft (20) and a first connecting rod (16) which is rotatably arranged with the driving shaft (20) are rotatably arranged at one quarter of the rotating wheel (19), one end of the first connecting rod (16) far away from the rotating wheel (19) is rotatably provided with a driven shaft (18) and a second connecting rod (17) rotatably arranged with the driven shaft (18), one end of the second connecting rod (17) is fixedly connected with the connecting fork (15).

3. The shaking-up detection frame for preventing blood coagulation as claimed in claim 1, wherein a set of mounting blocks (26) are arranged on the outer walls of two sides of the opening of the driven U-shaped block (4), a rotating block (27) is rotatably mounted on the outer end surface of each mounting block (26), and a bolt (28) is spirally arranged at one end of each rotating block (27).

4. The shaking detection frame for preventing blood coagulation as claimed in claim 1, wherein a fixing frame (24) is arranged at the middle lower part of the inner wall of the containing frame (1), and a second storing plate (25) is arranged inside the fixing frame (24) in a sliding manner.

5. The shaking-up detection frame for preventing blood coagulation as claimed in claim 1, wherein the bottom of the fixed magnetic pole (6) is fixedly connected with the top of the first containing plate (5), the outer wall of the fixed magnetic pole (6) is provided with a first fixed block (7) and a first anti-skid block (8) arranged on the top of the first fixed block (7); the movable magnetic pole (9) is in sliding fit with the top of the first containing plate (5), a second fixing block (10) and a second anti-slip block (11) mounted at the top of the second fixing block (10) are arranged on the outer wall of the movable magnetic pole (9), and the fixed magnetic pole (6) and the movable magnetic pole (9) are opposite magnetic poles.

6. The shaking detection frame for preventing blood coagulation as claimed in claim 5, wherein the fixed magnetic pole (6) and the movable magnetic pole (9) are provided with soft pads (12) on the opposite sides, and the test tubes (13) are arranged on the opposite sides of the soft pads (12).

7. The shaking detection frame for preventing blood coagulation as claimed in claim 1, wherein one side of the first storage plate (5) and one side of the second storage plate (25) are provided with screw holes (29).

8. The shaking detection frame for preventing blood coagulation as claimed in claim 1, wherein a handle (30) is attached to one side of the first storage plate (5) and the second storage plate (25).

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