CN211094739U - Puncture auxiliary material box for radioactive particle implantation - Google Patents

Abstract

The utility model discloses a radioactive particle implantation puncture auxiliary material box, which is a three-layer structure; the top layer and the bottom layer are movably connected through a second connecting piece and jointly form the outer wall of the box body, and the outer wall of the box body is also provided with a lock catch for preventing the box body from being opened; a plurality of groove positions are arranged on the inner wall of the top layer of the auxiliary material box; two ends of the two elastic belts are respectively fixed on the inner side wall of the top layer; the inner wall of the bottom layer of the auxiliary material box is also provided with a plurality of groove positions; the bottom lateral wall is connected with the middle layer through a first connecting piece, the bottom of the middle layer is provided with a plurality of bag positions with side openings, the bottom of the middle layer is further provided with a first pressing rod and a second pressing rod, and the two pressing rods are connected with the lower surface of the middle layer through vertical fixing rods. The utility model discloses simple structure contains required whole article in the art, and convenient to use has avoided the numerous and diverse process of piecing together of medical staff, practices thrift preparation time before the art, improves operation efficiency, reaches aseptic, safety, convenient purpose to reach better treatment.

Description

Puncture auxiliary material box for radioactive particle implantation

Technical Field

The utility model relates to the field of medical equipment, specifically a radioactive particle implantation puncture auxiliary material case.

Background

Radioactive particle implantation is a new technique for treating lung tumors, and the method has the advantages of small trauma, few complications, high safety, high local tumor control rate and the like. However, the surgical operation needs more and trivial articles, and no whole article bag is available at present, so that the articles need to be prepared by piecing together, the workload is increased, the time is wasted, and the treatment effect is influenced.

The following medical auxiliary materials are needed in the operation, namely gauze × 5, forceps × 2, long dry cotton swab × 05, long iodophor cotton swab × 15, mask × 22, hat × 32, gloves × 42, 20ml empty needle × 52, 10ml empty needle × 63, infusion set × 71, adhesive tape × 1, negative pressure drainage × 1, electrode slice × 5, blood pressure cuff × 1, blood oxygen finger stall × 1, oxygen inhalation mask × 1, sterile hole towel × 1, chest puncture box × 1 (16 # hemostatic forceps, small hole towel) and central venous catheter.

The auxiliary materials are various and large in quantity, so that careful preparation is needed before an operation, and once omission occurs, treatment is delayed, and excessive taking is caused, so that unnecessary waste is caused. Therefore, an arrangement bag is needed to be designed, auxiliary materials are stored uniformly, and the arrangement bag is convenient to arrange and count and is convenient to carry and take during operation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a radioactive seed implantation puncture auxiliary material box in order to solve the problems.

The utility model is implemented according to the following technical proposal.

A radioactive particle implantation puncture auxiliary material box is of a three-layer structure; the top layer and the bottom layer are movably connected through a second connecting piece and jointly form the outer wall of the box body, and the outer wall of the box body is also provided with a lock catch for preventing the box body from being opened; the inner wall of the top layer is provided with an oxygen mask groove, an electrode plate groove and a composite groove; two ends of the two elastic belts are respectively fixed on the inner side wall of the top layer, one elastic belt spans over the oxygen mask slot position and the electrode plate slot position, and the other elastic belt spans over the composite slot position; the inner wall of the bottom layer is provided with a forceps groove position, a hemostatic forceps groove position, a needle tube groove position and a venous tube groove position; the vein tube groove is in an elliptical ring shape and surrounds the forceps groove and the hemostatic forceps groove; the bottom lateral wall is connected with the middle layer through a first connecting piece, the bottom of the middle layer is provided with an infusion apparatus bag position with an opening on the side face, a composite bag position, a dressing bag position, a cotton swab bag position, a first pressing rod and a second pressing rod, and the two pressing rods are connected with the lower surface of the middle layer through vertical fixing rods.

Further, the second connecting piece is a hinge; the number of the lock catches is not less than two.

Furthermore, the first connecting piece is of a special-shaped structure with two convex sides and a concave middle part, and the two convex parts form a through hole for the rotating shaft to pass through.

Further, the height of the top layer is 3-4 cm, the height of the bottom layer is 4-5 cm, and the thickness of the outer wall of the box body is 0.8 cm.

Furthermore, the size of the oxygen mask slot is 10 × 11cm rectangular, the electrode plate slot is 10 × 5cm rectangular, and the composite slot is 17cm in diameter circular.

Further, the major axis of the ellipse at the outer circle of the venous duct slot position is 19cm, and the minor axis is 14 cm; the major axis of the ellipse of the inner circle is 15.2cm, and the minor axis is 11.2 cm.

Further, the number of the needle tube slots is five, and the specification of the needle tube slots is between 12.7 × 4cm and 10.2 × 3.3.3 cm.

The utility model discloses following beneficial effect has been obtained.

The utility model discloses simple structure contains required whole article in the art, and convenient to use is convenient for carry out the particle implantation art to the patient, has avoided the numerous and diverse process of piecing together of medical staff, practices thrift preparation time before the art, improves operation efficiency, reaches aseptic, safe, convenient purpose to reach better treatment.

Drawings

Fig. 1 is a schematic structural view of the present invention (fully open);

fig. 2 is a schematic structural view of the present invention (the middle layer is not opened);

fig. 3 is a schematic structural diagram of a first connecting member according to the present invention (the intermediate layer is not opened);

fig. 4 is a schematic structural view of a first connecting member according to the present invention (with the intermediate layer open);

fig. 5 is a schematic view of the installation manner of the first pressure lever on the middle layer in the present invention.

Wherein, 1, a top layer; 101. an oxygen mask slot position; 102. an electrode plate slot position; 103. compounding slot positions; 104. an elastic band; 2. a bottom layer; 201. a forceps slot position; 202. a hemostatic forceps slot position; 203. needle tube slot position; 204. a venous catheter slot; 3. an intermediate layer; 301. a transfusion device bag position; 302. a compound bag position; 303. a dressing bag location; 304. cotton swab bag positions; 305. a first pressure lever; 306. a second compression bar; 4. a first connecting member; 5. a second connecting member; 6. locking; 7. a rotating shaft.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1 to 5, a radioactive particle implantation puncture auxiliary material box has a three-layer structure; the top layer 1 and the bottom layer 2 are movably connected through a second connecting piece 5 and jointly form the outer wall of the box body, and the outer wall of the box body is also provided with a lock catch 6 for preventing the box body from being opened; an oxygen mask slot 101, an electrode plate slot 102 and a composite slot 103 are arranged on the inner wall of the top layer 1; two ends of two elastic bands 104 are respectively fixed on the inner side wall of the top layer 1, wherein one elastic band 104 spans over the oxygen mask slot 101 and the electrode plate slot 102, and the other elastic band 104 spans over the composite slot 103; a forceps slot 201, a hemostatic forceps slot 202, a needle tube slot 203 and a venous tube slot 204 are arranged on the inner wall of the bottom layer 2; the venous tube slot 204 is in an elliptical ring shape and surrounds the forceps slot 201 and the hemostatic forceps slot 202; the middle layer 3 is connected to the side wall of the bottom layer 2 through a first connecting piece 4, an infusion apparatus bag position 301 with an opening on the side face, a composite bag position 302, a dressing bag position 303, a cotton swab bag position 304 and a first pressing rod 305 and a second pressing rod 306 are arranged at the bottom of the middle layer 3, and the lower surface of the middle layer 3 is connected with the two pressing rods through vertical fixing rods.

The second connecting piece 5 is a hinge; the number of the lock catches 6 is not less than two.

The first connecting piece 4 is of a special-shaped structure with two convex sides and a concave middle part, and the two convex parts form a through hole for the rotating shaft 7 to pass through. One of the rotary shafts 7 of the first connecting member 4 is inserted into a through-hole formed in the lower layer 2, and the other rotary shaft 7 is inserted into a through-hole formed in the intermediate layer 3, thereby connecting the lower layer 2 with the intermediate layer 3.

The height of the top layer 1 is 3-4 cm, the height of the bottom layer 2 is 4-5 cm, and the thickness of the outer wall of the box body is 0.8 cm.

The size of the oxygen mask slot 101 is 10 × 11cm rectangular, the electrode plate slot 102 is 10 × 5cm rectangular, and the composite slot 103 is 17cm circular.

The major axis of the ellipse at the outer circle of the venous catheter slot position 204 is 19cm, and the minor axis is 14 cm; the major axis of the ellipse of the inner circle is 15.2cm, and the minor axis is 11.2 cm.

The number of needle slots 203 is five, and the specification is between 12.7 × 4cm and 10.2 × 3.3.3 cm.

The principle and the using method of the utility model are as follows: the lock catch 6 is opened to open the box, as shown in fig. 2, an angle of 180 degrees is formed between the top layer 1 and the bottom layer 2, and the outer wall of the box body is tightly attached to the table top. Turning the middle layer 3 outwards for 180 degrees as shown in fig. 3, so that the middle layer 3 is positioned at the right side of the bottom layer 2, and completely opening the box body as shown in fig. 1; sequentially placing required medical equipment into the corresponding bag position and the corresponding groove position, wherein a blood pressure cuff, a blood oxygen probe and a negative pressure drainage device are placed in the composite groove position 103; gloves, hats, masks and the like used by medical personnel are placed in the composite bag. After all equipment placed, whether have the omission of quick check, for the mode of checking one by one according to the table, efficiency is higher and the degree of accuracy is higher. Then, as shown in fig. 4, the middle layer 3 is turned back 180 degrees again and pressed on the bottom layer 2, at this time, the highest place of the bottom surface of the middle layer 3 is the first pressing rod 305 and the second pressing rod 306, wherein the first pressing rod 305 is pressed on the hemostatic forceps slot 202 and the forceps slot 201, and the second pressing rod 306 is pressed on the needle tube slot 203, so that the forceps, the hemostatic forceps and the needle tube can be effectively prevented from being pulled out of the slots. The devices in the top layer 1 are light in weight, so that the elastic bands 104 can effectively bind the devices in the top layer 1 and prevent the devices from falling out. And finally, the top layer 1 and the bottom layer 2 are combined together, and the box can be delivered to an operating room by locking the lock catch. When the medical doctor uses, the medical doctor can take the medical doctor by reopening the medical doctor.

Claims (7)

1. A radioactive particle implantation puncture auxiliary material box is characterized in that the auxiliary material box is of a three-layer structure; the top layer (1) and the bottom layer (2) are movably connected through a second connecting piece (5) and jointly form the outer wall of the box body, and the outer wall of the box body is also provided with a lock catch (6) for preventing the box body from being opened; an oxygen mask slot (101), an electrode plate slot (102) and a composite slot (103) are formed in the inner wall of the top layer (1); two ends of each elastic band (104) are respectively fixed on the inner side wall of the top layer (1), one elastic band (104) spans over the oxygen mask slot (101) and the electrode plate slot (102), and the other elastic band (104) spans over the composite slot (103); a forceps slot (201), a hemostatic forceps slot (202), a needle tube slot (203) and a venous tube slot (204) are arranged on the inner wall of the bottom layer (2); the vein groove (204) is in an elliptical ring shape and surrounds the forceps groove (201) and the hemostatic forceps groove (202); bottom (2) lateral wall passes through first connecting piece (4) and connects intermediate level (3), and intermediate level (3) bottom is equipped with side open-ended transfusion system bag position (301), compound bag position (302), dressing bag position (303), cotton swab bag position (304), and intermediate level (3) bottom still is equipped with first depression bar (305) and second depression bar (306), and intermediate level (3) lower surface is all connected through vertical dead lever to two depression bars.

2. The radioactive particle implantation piercing aid case of claim 1, wherein the second connecting member (5) is a hinge; the number of the lock catches (6) is not less than two.

3. The radioactive particle implantation puncture auxiliary material case according to claim 1, wherein the first connecting member (4) has a profile structure in which both sides are convex and the middle is concave, and both the convex portions form a through hole for passing the rotation shaft (7).

4. The radioactive particle implantation puncture auxiliary material box according to claim 1, wherein the height of the top layer (1) is 3 to 4cm, the height of the bottom layer (2) is 4 to 5cm, and the thickness of the outer wall of the box body is 0.8 cm.

5. The radioactive particle implantation puncture auxiliary material box according to claim 1, wherein the oxygen mask slot (101) has a rectangular shape with a size of 10 × 11cm, the electrode pad slot (102) has a rectangular shape with a size of 10 × 5cm, and the composite slot (103) has a circular shape with a diameter of 17 cm.

6. The radioactive seed implantation puncture auxiliary material case according to claim 1, wherein the major axis of the ellipse surrounding the venous duct groove (204) is 19cm, and the minor axis is 14 cm; the major axis of the ellipse of the inner circle is 15.2cm, and the minor axis is 11.2 cm.

7. The radioactive particle implantation puncture auxiliary material case according to claim 1, wherein the number of the needle cannula slots (203) is five, and the specification is between 12.7 × 4cm and 10.2 × 3.3.3 cm.

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