CN114705808A

CN114705808A - Portable blood irradiator detection die body and use method thereof

Info

Publication number: CN114705808A
Application number: CN202210136548.3A
Authority: CN
Inventors: 陈灿; 毛定立; 颜迪新; 尹毓才; 梅杰; 姚馨博
Original assignee: Zhejiang Province Institute of Metrology
Current assignee: Zhejiang Province Institute of Metrology
Priority date: 2022-04-21
Filing date: 2022-04-21
Publication date: 2022-07-05
Anticipated expiration: 2042-04-21
Also published as: CN114705808B

Abstract

The invention discloses a portable blood irradiator detection die body which comprises a fixed platform, a first guide rail, an adjusting rod, a fixed support, a second guide rail, a penetrating rod and a fixed knob, wherein the fixed platform is provided with a first guide rail and a second guide rail; the end part of the adjusting rod and the middle part of the fixed platform are provided with supporting rings; penetrating rings are arranged at the end part of the penetrating rod and the middle part of the fixed support; a first sleeve is inserted into the supporting ring arranged on the adjusting rod; a second sleeve is inserted into the supporting ring arranged on the fixed platform; the adjusting rod and the penetrating rod which can respectively slide along the first guide rail and the second guide rail are arranged, and the first sleeve is fixed by the adjusting rod and the penetrating rod, so that the distance between the first sleeve and the second sleeve is adjustable, the blood irradiator can be suitable for being installed in blood irradiators of different specifications to be practical, is convenient to maintain, and overcomes the defects of the prior art.

Description

Portable blood irradiator detection die body and use method thereof

Technical Field

The invention belongs to the technical field of a detection die body of a blood irradiator, and particularly relates to a portable detection die body of the blood irradiator and a method thereof.

Background

The blood irradiation instruments on the market today have various specifications, and users often have inconvenience when using alternately between different blood irradiation instruments, and the operation is complicated.

Disclosure of Invention

The invention provides a portable blood irradiator detection die body and a using method thereof, aiming at overcoming the defects of the prior art.

The technical scheme provided by the invention is as follows: a portable blood irradiator detection die body comprises a fixed platform, a plurality of first guide rails arranged at the top of the fixed platform, an adjusting rod connected to the first guide rails in a sliding manner, a fixed support positioned right above the fixed platform, a plurality of second guide rails arranged at the bottom of the fixed support, a penetrating rod connected to the second guide rails in a sliding manner, and fixed knobs respectively connected to the adjusting rod and the penetrating rod in a threaded manner; the first guide rails correspond to the second guide rails one to one; the end part of the adjusting rod and the middle part of the fixed platform are provided with supporting rings; penetrating rings are arranged at the end part of the penetrating rod and the middle part of the fixed support; a first sleeve is inserted between the supporting ring arranged on the adjusting rod and the penetrating ring positioned right above the supporting ring; a second sleeve is inserted between the supporting ring arranged on the fixed platform and the penetrating ring positioned right above the supporting ring; and the adjusting rod and the penetrating rod are respectively provided with a graduated scale.

When the blood irradiator is used, according to blood irradiators of different specifications, the distance between the first sleeve and the second sleeve is correspondingly changed by respectively sliding the adjusting rods and the penetrating rods along the first guide rail and the second guide rail so as to adapt to the installation requirements of the blood irradiators of different specifications; the graduated scale is used for measuring the distance between the first sleeve and the second sleeve; the first sleeve and the second sleeve are used for installing an ampoule bottle, and a detection solution is stored in the ampoule bottle; after the use is accomplished, the detection die body can be taken off alone in the blood irradiation appearance, and the convenience is practical in other blood irradiation appearance, or carries so that the storage detects solution sample as required.

Further, a first sliding groove is formed in the bottom of the fixed platform; a first sliding rod is arranged outside the supporting ring; the first sliding rod is connected in the first sliding groove in a sliding manner; the top of the fixed support is provided with a second sliding chute; a second sliding rod is arranged outside the penetrating ring; the second sliding rod is connected in the second sliding groove in a sliding manner; the bottom of the fixed knob is rotatably connected to the stop block; the stop block is abutted against the first slide rail or the second slide rail.

Further, a first clamping piece is installed in the first sleeve; the first clamping piece comprises a first bottom block which is connected in the first sleeve in a sliding mode, a first spring which is fixed between the first bottom block and the first sleeve, a plurality of first ring blocks which are connected on the first bottom block in a sliding mode, and a first elastic rope which is fixed among the first ring blocks; one side of the first bottom block is provided with a notch; a slot is arranged in the adjusting rod; a wedge-shaped block is connected in the slot in a sliding manner; a second spring is fixed between the wedge block and the slot; the wedge-shaped block can pass through the first sleeve and be inserted into the notch; the outer side of each first ring block is provided with a conical surface; the first ring block is connected with conical rings which correspond to the first ring block one by one in a sliding manner; the inner side of the conical ring can be contacted with the conical surface; a push rod is arranged at the bottom of the conical ring; the bottom end of the push rod penetrates through the first bottom block.

Furthermore, a first rotation stopping groove is formed in the first sleeve; a first rotation stopping strip is arranged on the first bottom block; the first rotation stopping strip is connected in the first rotation stopping groove in a sliding mode; inclined planes are arranged on two sides of the wedge-shaped block; a through groove is formed in the side surface of the first sleeve; the wedge-shaped block penetrates through the through groove; a first torsion spring is fixed between the bottom of the first sleeve and the adjusting rod.

Further, a second clamping piece is installed in the second sleeve; the second clamping piece comprises a second bottom block which is connected in the second sleeve in a sliding mode, a third spring which is fixed between the second bottom block and the second sleeve, a plurality of second ring blocks which are connected on the second bottom block in a sliding mode, and a second elastic rope which is fixed among the second ring blocks; a round rod is arranged at the bottom of the second bottom block; the bottom of the round rod is provided with a ring groove; two notches are symmetrically arranged at the bottom of the circular groove; two clamping strips are symmetrically hinged to the center of the fixed platform; a second torsion spring is fixed between the clamping strip and the fixed platform; the round rod can pass through the bottom of the second sleeve; the clamping strip can be inserted into the ring groove.

Furthermore, a second rotation stopping groove is formed in the second sleeve; a second rotation stopping strip is arranged on the second bottom block; the second rotation stopping strip is connected in the second rotation stopping groove in a sliding mode; and a third torsion spring is fixed between the bottom of the second sleeve and the fixed platform.

A use method of a blood irradiator detection die body is provided, wherein the blood irradiator detection die body is the portable blood irradiator detection die body in the foregoing; the using method comprises the following steps: according to the specification of the blood irradiation instrument, the first slide rail and the second slide rail respectively slide each adjusting rod and the penetrating rod so as to adjust the distance between each first sleeve and each second sleeve and adapt to installation on the blood irradiation instruments with different specifications; secondly, inserting a plurality of ampoule bottles filled with detection solution into the first sleeve pipes respectively, and enabling the first ring blocks to be sleeved on the peripheries of the ampoule bottles; pressing the ampoule bottle to enable the first bottom block to move downwards, enabling the wedge-shaped block to be inserted into the notch groove, and fixing the ampoule bottle inside the first sleeve pipe after the ampoule bottle is loosened; inserting another ampoule bottle containing the detection solution into each second sleeve, and sleeving each second ring block on the periphery of the ampoule bottle; pressing the ampoule bottle to enable the second bottom block to move downwards, enabling the clamping strip to be inserted into the annular groove, and fixing the ampoule bottle inside the second sleeve after the ampoule bottle is loosened; installing the blood irradiator detection mold body provided with the ampoule bottle into the blood irradiator, and starting the blood irradiator to carry out detection; after the detection is finished, the first sleeve is rotated to enable the wedge block to be separated from the notch, and the first bottom block moves upwards to reset under the action of the first spring so that the ampoule bottle extends out of the first sleeve; rotating the second sleeve to enable the clamping strip to be separated from the annular groove from the notch, and moving the second bottom block upwards to reset under the action of a third spring so as to enable the ampoule bottle to extend out of the second sleeve; sixthly, taking out the ampoule bottle from the first sleeve and the second sleeve respectively, and taking out the blood irradiator detection die body from the blood irradiator so as to store and maintain the blood irradiator detection die body independently.

In summary, the adjusting rod and the penetrating rod which can respectively slide along the first guide rail and the second guide rail are arranged, and the first sleeve is fixed by the adjusting rod and the penetrating rod, so that the distance between the first sleeve and the second sleeve can be adjusted, the blood irradiator can be practically installed in blood irradiators with different specifications, the maintenance is convenient, and the defects of the prior art are overcome.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is an isometric cross-sectional view of the present invention

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a partially enlarged view of a portion B in fig. 2.

Fig. 5 is a schematic structural diagram of the wedge-shaped block in fig. 3.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1-5, a portable blood irradiator detection die body includes a fixed platform 1, a first guide rail 11, an adjusting rod 2, a fixed bracket 3, a second guide rail 31, a penetrating rod 4, and a fixed knob 5; the portable blood irradiator detection die body is integrally matched with a blood irradiator purchased from the market for use, the connection mode of the two is the prior art, and the details are not repeated; at least four first guide rails 11 are arranged on the periphery of the top of the fixed platform 1 respectively, and the adjusting rods 2 are connected above the first guide rails 11 in a sliding manner; at least four second guide rails 31 are arranged on the periphery of the bottom of the fixed support 3 respectively, and the penetrating rods 4 are connected below the second guide rails 31 in a sliding manner; the fixed support 3 is positioned right above the fixed platform 1, so that the penetrating rods 4 correspond to the adjusting rods 2 one by one; each fixing knob 5 is respectively connected with the adjusting rod 2 and the through rod 4 in a threaded manner and used for locking the adjusting or through rod 4 so as to fix the positions of the adjusting or through rod and the through rod; the end part of the adjusting rod 2 and the middle part of the fixed platform 1 are provided with a supporting ring 12; the end part of the penetrating rod 4 and the middle part of the fixed bracket 3 are provided with penetrating rings 32; a first sleeve 6 is inserted between the supporting ring 12 arranged on the adjusting rod 2 and the penetrating ring 32 positioned right above the supporting ring; a second sleeve 7 is inserted between the supporting ring 12 arranged on the fixed platform 1 and the penetrating ring 32 positioned right above the supporting ring; the first sleeve 6 and the second sleeve 7 are used for fixedly mounting ampoule bottles containing detection solution, and the ampoule bottles are commercially available; the adjusting rod 2 and the penetrating rod 4 are both provided with a graduated scale 13 for determining the distance between the first sleeve 6 and the second sleeve 7.

Further, a first chute 14 is arranged at the bottom of the fixed platform 1; a first slide bar 21 is arranged outside the supporting ring 12; the first sliding rod 21 is connected in the first sliding chute 14 in a sliding manner; the top of the fixed bracket 3 is provided with a second chute 33; a second sliding rod 41 is arranged outside the penetrating ring 32; the second sliding rod 41 is connected in the second sliding chute 33 in a sliding manner; the bottom of the fixed knob 5 is rotationally connected to the stop block 51; the stop block 51 abuts against the first slide rail or the second slide rail.

The matching of the first sliding chute 14 and the first sliding rod 21 limits the up-and-down movement of the adjusting rod 2 relative to the fixed platform 1; the matching of the second sliding chute 33 and the second sliding rod 41 limits the up-and-down movement of the penetrating rod 4 relative to the fixed bracket 3; when the position of the adjusting rod 2 or the penetrating rod 4 is fixed, the stop block 51 is pressed against the first slide rail or the second slide rail by screwing the fixing knob 5, and the adjusting rod 2 is fixed on the first slide rail by the cooperation of the stop block 51 and the first slide bar 21; the stop block 51 is matched with the second slide rail to fix the penetrating rod 4 on the second slide rail so as to fix the adjusting rod 2 or the penetrating rod 4.

Further, a first clamping piece 8 is arranged in the first sleeve 6; the first clamping member 8 comprises a first bottom block 81 connected in a sliding manner in the first sleeve 6, a first spring 82 fixed between the first bottom block 81 and the first sleeve 6, a plurality of first ring blocks 83 connected on the first bottom block 81 in a sliding manner, and a first elastic rope 84 fixed between the plurality of first ring blocks 83; one side of the first bottom block 81 is provided with a notch 811; a slot 22 is arranged in the adjusting rod 2; a wedge block 23 is connected in the slot 22 in a sliding way; a second spring 24 is fixed between the wedge block 23 and the slot 22; the wedge block 23 can pass through the first sleeve 6 and be inserted into the notch 811; the outer side of each first ring block 83 is provided with a conical surface 831; the first ring block 83 is slidably connected with conical rings 812 which correspond to the first ring block 83 one by one; the inner side of the conical ring 812 can be contacted with the conical surface 831; the bottom of the conical ring 812 is provided with a push rod 813; the bottom end of the push rod 813 passes through the first bottom block 81.

The first ring block 83 is mounted on the first bottom block 81 by a conventional sliding connection and can slide horizontally above the first bottom block 81; in use, an ampoule is placed in the first sleeve 6, and each first loop block 83 is wrapped around the ampoule under the tension of the first elastic cord 84; the ampoule bottle is pressed to enable the first bottom block 81 to move downwards, the wedge-shaped block 23 is embedded into the notch 811 under the action of the second spring 24, and the first bottom block 81 is limited to move upwards and reset; meanwhile, the push rod 813 contacts the bottom of the first sleeve 6 to enable the cone ring 812 to move upwards relative to the first bottom block 81, the cone ring 812 extrudes the cone surface 831, a cavity is formed in the first ring block 83, after the cone ring 812 is extruded, the air pressure in the cavity is increased, the first ring block 83 is enabled to be tightly attached to the ampoule bottle, and therefore the ampoule bottle is fixed in the first sleeve 6, and the ampoule bottle can be conveniently moved or a detection solution in the ampoule bottle can be conveniently processed.

Further, a first rotation stopping groove 61 is formed in the first sleeve 6; a first rotation stopping strip 814 is arranged on the first bottom block 81; the first rotation stopping bar 814 is slidably connected in the first rotation stopping groove 61; inclined planes 25 are arranged on two sides of the wedge block 23; the side surface of the first sleeve 6 is provided with a through groove 62; the wedge block 23 passes through the through groove 62; a first torsion spring 63 is fixed between the bottom of the first sleeve 6 and the adjusting rod 2.

The cooperation of the first rotation stopping groove 61 and the first rotation stopping strip 814 limits the relative rotation between the first bottom block 81 and the first sleeve 6; when the wedge block 23 is inserted into the notch 811, it passes through the through groove 62; after the detection is finished, the first sleeve 6 is rotated, so that the side walls of the notch 811 and the through groove 62 contact the inclined surface 25, the wedge block 23 is pushed to retreat into the slot 22, and the first spring 82 pushes the first bottom block 81 to move upwards for resetting, so that the upper part of the ampoule bottle extends out of the first sleeve 6; the push rod 813 is separated from the bottom surface of the first sleeve 6, the conical ring 812 moves downwards relative to the first bottom block 81 under the action of gravity, and the conical ring 812 does not press the conical surface 831 any more, so that an ampoule bottle can be taken out from the first sleeve 6 in the following process; after the first sleeve 6 is loosened, the first torsion spring 63 drives the first sleeve 6 to reset so as to prepare for fixing the ampoule bottle next time.

Further, a second clamping piece 9 is arranged in the second sleeve 7; the second clamping member 9 comprises a second bottom block 91 slidably connected in the second sleeve 7, a third spring 92 fixed between the second bottom block 91 and the second sleeve 7, a plurality of second ring blocks 93 slidably connected on the second bottom block 91, and a second elastic rope 94 fixed between the plurality of second ring blocks 93; the bottom of the second bottom block 91 is provided with a round rod 911; the bottom of the round rod 911 is provided with a ring groove 912; the bottom of the ring groove 912 is symmetrically provided with two notches 913; two clamping strips 15 are symmetrically hinged to the center of the fixed platform 1; a second torsion spring 16 is fixed between the clamping strip 15 and the fixed platform 1; the round bar 911 can pass through the bottom of the second sleeve 7; the clamping strip 15 can be inserted into the ring groove 912.

The second ring block 93 is mounted on the second bottom block 91 by a conventional sliding connection manner and can horizontally slide above the second bottom block 91; in use, an ampoule is placed in the second sleeve 7, and each second ring block 93 is wrapped around the ampoule under the tension of the second elastic cord 94; the ampoule bottle is pressed to enable the second bottom block 91 to move downwards, the round rod 911 penetrates through the bottom of the second sleeve 7, and under the action of the second torsion spring 16, the clamping strip 15 is embedded into the ring groove 912 along with the round rod to limit the second bottom block 91 to move upwards and reset; the second bottom block 91 is also provided with a conical ring 812 and a push rod 813, the structures of the conical ring 812 and the push rod 813 and the matching mode of the conical ring 812 and the push rod 813 with the second ring block 93 are the same as those of the conical ring 812 on the first ring block 83, so that the ampoule bottle can be fixed in the second sleeve 7, and the ampoule bottle can be conveniently moved or the detection solution in the ampoule bottle can be conveniently treated.

Further, a second rotation stopping groove 71 is formed in the second sleeve 7; a second rotation stopping strip 914 is arranged on the second bottom block 91; the second rotation stopping bar 914 is slidably connected in the second rotation stopping groove 71; a third torsion spring 72 is fixed between the bottom of the second sleeve 7 and the fixed platform 1.

The cooperation of the second rotation stopping slot 71 and the second rotation stopping strip 914 limits the relative rotation between the second bottom block 91 and the second sleeve 7; after the detection is finished, the second sleeve 7 is rotated to enable the notch 913 to rotate to be right above the clamping strip 15, and the third spring 92 pushes the second bottom block 91 to move upwards to reset, so that the upper part of the ampoule bottle extends out of the second sleeve 7; the push rod 813 is separated from the bottom surface of the second sleeve 7, the conical ring 812 moves downwards relative to the second bottom block 91 under the action of gravity, and the conical ring 812 does not press the conical surface 831 any more, so that the ampoule bottle can be taken out from the second sleeve 7 in the following process; after the second sleeve 7 is loosened, the third torsion spring 72 drives the second sleeve 7 to reset, so as to prepare for fixing the ampoule bottle next time.

A blood irradiator detection die body is the portable blood irradiator detection die body in the above; the using method comprises the following steps: firstly, according to the specification of the blood irradiation instrument, a first sliding rail and a second sliding rail respectively slide each adjusting rod 2 and each penetrating rod 4 so as to adjust the distance between each first sleeve 6 and each second sleeve 7, so as to adapt to the installation on the blood irradiation instruments with different specifications; secondly, inserting a plurality of ampoule bottles filled with detection solution into each first sleeve 6 respectively, and sleeving each first ring block 83 on the periphery of each ampoule bottle; pressing the ampoule bottle to move the first bottom block 81 downwards, inserting the wedge-shaped block 23 into the notch 811, and fixing the ampoule bottle inside the first sleeve 6 after the hand is released; inserting another ampoule bottle containing the detection solution into each second sleeve 7, and sleeving each second ring block 93 on the periphery of the ampoule bottle; pressing the ampoule bottle to move the second bottom block 91 downwards, so that the clamping strip 15 is inserted into the ring groove 912, and the ampoule bottle is fixed inside the second sleeve 7 after the hand is released; installing the detection die body of the blood irradiator provided with the ampoule bottle into the blood irradiator, and starting the blood irradiator to detect; after the detection is finished, the first sleeve 6 is rotated to enable the wedge block 23 to be separated from the notch 811, and the first bottom block 81 is moved upwards to reset under the action of the first spring 82 so that the ampoule bottle extends out of the first sleeve 6; the second sleeve 7 is rotated to enable the clamping strip 15 to be separated from the notch 913 to the annular groove 912, and the second bottom block 91 is moved upwards to be reset under the action of the third spring 92, so that the ampoule bottle extends out of the second sleeve 7; sixthly, taking out the ampoule bottles from the first sleeve 6 and the second sleeve 7 respectively, and taking out the blood irradiator detection die body from the blood irradiator so as to independently store and maintain the blood irradiator detection die body.

The foregoing has described preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary, and various changes made within the scope of the independent claims of the present invention are within the scope of the present invention.

Claims

1. A portable blood irradiator detects die body which characterized in that: the device comprises a fixed platform, a plurality of first guide rails arranged at the top of the fixed platform, an adjusting rod connected to the first guide rails in a sliding manner, a fixed support positioned right above the fixed platform, a plurality of second guide rails arranged at the bottom of the fixed support, a penetrating rod connected to the second guide rails in a sliding manner, and a fixed knob respectively connected to the adjusting rod and the penetrating rod in a threaded manner; the first guide rails correspond to the second guide rails one to one; the end part of the adjusting rod and the middle part of the fixed platform are provided with supporting rings; penetrating rings are arranged at the end part of the penetrating rod and the middle part of the fixed support; a first sleeve is inserted between the supporting ring arranged on the adjusting rod and the penetrating ring positioned right above the supporting ring; a second sleeve is inserted between the supporting ring arranged on the fixed platform and the penetrating ring positioned right above the supporting ring; and the adjusting rod and the penetrating rod are respectively provided with a graduated scale.

2. The portable blood irradiator detection phantom according to claim 1, wherein: the bottom of the fixed platform is provided with a first sliding chute; a first sliding rod is arranged outside the supporting ring; the first sliding rod is connected in the first sliding groove in a sliding manner; the top of the fixed support is provided with a second sliding chute; a second sliding rod is arranged outside the penetrating ring; the second sliding rod is connected in the second sliding groove in a sliding manner; the bottom of the fixed knob is rotatably connected to the stop block; the stop block is abutted against the first slide rail or the second slide rail.

3. The portable blood irradiator detection phantom according to claim 1, wherein: a first clamping piece is arranged in the first sleeve; the first clamping piece comprises a first bottom block which is connected in the first sleeve in a sliding mode, a first spring which is fixed between the first bottom block and the first sleeve, a plurality of first ring blocks which are connected on the first bottom block in a sliding mode, and a first elastic rope which is fixed among the first ring blocks; one side of the first bottom block is provided with a notch; a slot is arranged in the adjusting rod; a wedge-shaped block is connected in the slot in a sliding manner; a second spring is fixed between the wedge block and the slot; the wedge-shaped block can pass through the first sleeve and be inserted into the notch; the outer side of each first ring block is provided with a conical surface; the first ring blocks are connected with conical rings in a sliding manner, wherein the conical rings correspond to the first ring blocks one by one; the inner side of the conical ring can be contacted with the conical surface; a push rod is arranged at the bottom of the conical ring; the bottom end of the push rod penetrates through the first bottom block.

4. The portable blood irradiator detection phantom according to claim 3, wherein: a first rotation stopping groove is formed in the first sleeve; a first rotation stopping strip is arranged on the first bottom block; the first rotation stopping strip is connected in the first rotation stopping groove in a sliding mode; inclined planes are arranged on two sides of the wedge-shaped block; a through groove is formed in the side surface of the first sleeve; the wedge-shaped block penetrates through the through groove; a first torsion spring is fixed between the bottom of the first sleeve and the adjusting rod.

5. The portable blood irradiator detection phantom according to claim 1, wherein: a second clamping piece is arranged in the second sleeve; the second clamping piece comprises a second bottom block which is connected in the second sleeve in a sliding mode, a third spring which is fixed between the second bottom block and the second sleeve, a plurality of second ring blocks which are connected on the second bottom block in a sliding mode, and a second elastic rope which is fixed among the second ring blocks; a round rod is arranged at the bottom of the second bottom block; the bottom of the round rod is provided with a ring groove; two notches are symmetrically arranged at the bottom of the circular groove; two clamping strips are symmetrically hinged to the center of the fixed platform; a second torsion spring is fixed between the clamping strip and the fixed platform; the round rod can pass through the bottom of the second sleeve; the clamping strip can be inserted into the ring groove.

6. The portable blood irradiator detection phantom according to claim 5, wherein: a second rotation stopping groove is formed in the second sleeve; a second rotation stopping strip is arranged on the second bottom block; the second rotation stopping strip is connected in the second rotation stopping groove in a sliding mode; and a third torsion spring is fixed between the bottom of the second sleeve and the fixed platform.

7. A method for using a blood irradiator detection phantom (the name of which needs to be confirmed), wherein the blood irradiator detection phantom is the portable blood irradiator detection phantom according to claims 1 to 6; the method is characterized in that: the using method comprises the following steps:

according to the specification of the blood irradiation instrument, the first sliding rail and the second sliding rail respectively slide each adjusting rod and the penetrating rod so as to adjust the distance between each first sleeve and each second sleeve and adapt to installation on the blood irradiation instruments with different specifications;

secondly, inserting a plurality of ampoule bottles filled with detection solution into each first sleeve respectively, and sleeving each first ring block on the periphery of each ampoule bottle; pressing the ampoule bottle to enable the first bottom block to move downwards, enabling the wedge-shaped block to be inserted into the notch groove, and fixing the ampoule bottle inside the first sleeve pipe after the ampoule bottle is loosened;

inserting another ampoule bottle containing the detection solution into each second sleeve, and sleeving each second ring block on the periphery of the ampoule bottle; pressing the ampoule bottle to enable the second bottom block to move downwards, enabling the clamping strip to be inserted into the annular groove, and fixing the ampoule bottle inside the second sleeve after the ampoule bottle is loosened;

installing the detection die body of the blood irradiator provided with the ampoule bottle into the blood irradiator, and starting the blood irradiator to detect;

after the detection is finished, the first sleeve is rotated to enable the wedge block to be separated from the notch, and the first bottom block moves upwards to reset under the action of the first spring so that the ampoule bottle extends out of the first sleeve; rotating the second sleeve to enable the clamping strip to be separated from the annular groove from the notch, and moving the second bottom block upwards to reset under the action of a third spring so as to enable the ampoule bottle to extend out of the second sleeve;

sixthly, taking out the ampoule bottle from the first sleeve and the second sleeve respectively, and taking out the blood irradiator detection die body from the blood irradiator so as to store and maintain the blood irradiator detection die body independently.