CN217366094U

CN217366094U - Three-dimensional storage rack for operating forceps

Info

Publication number: CN217366094U
Application number: CN202123160165.XU
Authority: CN
Inventors: 熊闽敏; 何勇勇; 吕岩
Original assignee: Shenzhen Qianhai Shekou Free Trade Zone Hospital Shenzhen Nanshan Shekou People's Hospital
Current assignee: Shenzhen Qianhai Shekou Free Trade Zone Hospital Shenzhen Nanshan Shekou People's Hospital
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2022-09-06
Anticipated expiration: 2031-12-14

Abstract

The utility model discloses a three-dimensional storage rack of operation pincers for place on the mesa, including the flexible horizontal strut group that is used for the card to go into operation pincers that can control, flexible vertical strut group around can, the flexible vertical strut group that is used for leaning on operation pincers from top to bottom, horizontal strut group places on the mesa, and vertical strut group connects in horizontal strut group both sides, and vertical strut group connects in horizontal strut group and vertical strut group junction, can be according to the kind and quantity or the height of operation pincers, adjusts required length, width, height, and connection structure and the altitude mixture control piece of each strut all adopt external connection and design, have avoided having the joint position in the built-in groove design, the gap position is hidden dirty easily and is taken care of dirty and is unfavorable for the problem of cleanness, drying and sterilization, can prevent the emergence of hospital infection, this storage rack can be placed on operation tray, apparatus car, makes things convenient for operation pincers to classify and place, Convenient taking, improved storage effect and reduced falling probability of the operating forceps.

Description

Three-dimensional storage rack for surgical forceps

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to three-dimensional storage rack of operating forceps.

Background

The surgical forceps are common tools used in the surgical process, and during clinical surgery, the storage method of the surgical forceps comprises the following steps: the series iron rod, the series vascular forceps, the folding dressing pad towel, the edge leaning against the tray or the instrument trolley and the like, although the methods can place the surgical forceps on a sterile table, the problems that the surgical forceps are easy to fall off the surgical table, are inconvenient to take and use, are complicated in storage steps and the like exist, and the operation matching work is inconvenient.

SUMMERY OF THE UTILITY MODEL

To prior art in the operation in-process operation pincers drop easily, take inconvenient, deposit loaded down with trivial details not enough of step, the utility model aims at providing a reduce the probability that operation pincers dropped the operating table, improve and deposit the effect to and the convenient aseptic bench operation pincers three-dimensional storage rack who classifies.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a three-dimensional storage rack of operation pincers for place on the mesa, its characterized in that: including can controlling flexible horizontal branch pole group that is used for going into the operation pincers of card, the flexible vertical branch pole group around can, the flexible vertical branch pole group that is used for leaning on the operation pincers of can going up and down, horizontal branch pole group is placed on the mesa, and vertical branch pole group link is in horizontal branch pole group both sides, and vertical branch pole group link is in horizontal branch pole group and vertical branch pole group junction.

The utility model discloses following beneficial effect has:

1. the length, width, height of horizontal strut group, vertical strut group, the perpendicular strut group of this storage rack all can be adjusted, and horizontal strut group is used for blocking the operation pincers, indulges strut group, vertical strut group and is used for leaning on the operation pincers: meanwhile, the length, the width and the height required by the operation forceps can be adjusted according to the type, the number or the height of the operation forceps, for example, the height of the extending vertical support rod group is suitable for storing the cavity mirror type operation forceps, and the height is reduced to store the open type operation forceps.

2. This storage rack is suitable for the operation pincers of common use clinically: comprises an open type surgical forceps and an endoscope type surgical forceps.

3. Because this storage rack is placed on the operating table, make things convenient for getting of apparatus on hand to put, can be stained with blood or human body fluid, consequently all adopt external connection and design to each strut's connection structure and the altitude mixture control piece of horizontal strut group, vertical strut group, perpendicular strut group, have avoided having the joint position in the design of built-in groove, the gap position hides dirty problem that is unfavorable for cleanness, drying and sterilization easily, the emergence of preventable hospital infection, and frame construction, convenient observation moreover.

4. This storage rack can be put on operation tray, apparatus car, makes things convenient for the operation pincers to classify and places, convenient taking, improves and deposits the effect, reduces the probability that the operation pincers dropped the operating table.

5. The surgical forceps are made of high-temperature and high-pressure resistant materials, can be sterilized along with the surgical forceps, and are erected, so that the surgical forceps are convenient to use.

Drawings

FIG. 1 is a schematic structural view showing that the length, width and height of a three-dimensional storage rack for surgical forceps according to an embodiment of the present invention are all contracted to the shortest distance;

fig. 2 is a schematic view of the overall structure of fig. 1 with open surgical forceps in place.

FIG. 3 is a schematic view of the overall structure of a three-dimensional storage rack for surgical forceps according to the second embodiment of the present invention, wherein the length, width and height of the storage rack are extended to the maximum distance;

in the figure: 1. a first left cross bar; 2. a first right cross bar; 3. a first front longitudinal bar; 4. a first rear longitudinal bar; 5. a second right cross bar; 6. a second left cross bar; 7. a second rear longitudinal bar; 8. a second front longitudinal bar; 9. a first lower vertical bar; 10. a first upper vertical bar; 11. a third front longitudinal bar; 12. a third rear longitudinal bar; 13. a second upper vertical rod; 14. a second lower vertical bar; 15. a third lower vertical bar; 16. a third upper vertical rod; 17. a fourth rear longitudinal bar; 18. a fourth front longitudinal bar; 19. a fourth upper vertical rod; 20. a fourth lower vertical rod; 21. a height adjusting block; 101. a first connecting ring; 201. a second connection ring; 301. a third connecting ring; 401. a fourth connecting ring; 501. a fifth connecting ring; 601. a sixth connecting ring; 701. a seventh connecting ring; 801. an eighth connecting ring; 901. a ninth connecting ring; 1001. a tenth connection ring; 1101. an eleventh connecting ring; 1201. a twelfth connecting ring; 1301. a thirteenth connecting ring; 1401. a fourteenth connection ring; 1501. a fifteenth connecting ring; 1601. a sixteenth connecting ring; 1701. seventeenth connecting rings; 1801. an eighteenth connecting ring; 1901. a nineteenth connection ring; 2001. a twentieth connecting ring; 22. open surgical forceps.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention.

The first embodiment is as follows:

referring to fig. 1 and 2, a three-dimensional storage rack for surgical forceps is used to be placed on a table top, and includes a horizontal support rod set which can be extended and retracted left and right and is used to be clamped into the surgical forceps, a longitudinal support rod set which can be extended and retracted front and back, and a vertical support rod set which can be extended and retracted up and down and is used to be abutted against the surgical forceps, the horizontal support rod set is placed on the table top, the longitudinal support rod set is connected to two sides of the horizontal support rod set, and the vertical support rod set is connected to a joint of the horizontal support rod set and the longitudinal support rod set.

Specifically, the transverse strut group comprises a first left transverse strut 1, a first right transverse strut 2, a second right transverse strut 5 and a second left transverse strut 6, one end of the first left transverse strut 1 is respectively vertically connected with a second front longitudinal strut 8 and a first lower vertical strut 9, one end of the first right transverse strut 2 is respectively vertically connected with a first front longitudinal strut 3 and a fourth lower vertical strut 20, one end of the second right transverse strut 5 is respectively vertically connected with a first rear longitudinal strut 4 and a third lower vertical strut 15, one end of the second left transverse strut 6 is respectively vertically connected with a second rear longitudinal strut 7 and a second lower vertical strut 14, and the end part of the other end is respectively provided with a first connecting ring 101, a second connecting ring 201, a fifth connecting ring 501 and a sixth connecting ring 601, wherein the first right transverse strut 2 passes through the first connecting ring 101, the first left transverse strut 1 passes through the second connecting ring 201, and the second left transverse strut 6 passes through the fifth connecting ring 501, the second right cross bar 5 passes through a sixth connecting ring 601; the first left cross bar 1, the first right cross bar 2, the second right cross bar 5 and the second left cross bar 6 slide left and right along the second connecting ring 201, the first connecting ring 101, the sixth connecting ring 601 and the fifth connecting ring 501 respectively.

The longitudinal strut group comprises a first front longitudinal strut 3, a first rear longitudinal strut 4, a second rear longitudinal strut 7 and a second front longitudinal strut 8, one end of the first front longitudinal strut is respectively connected with the transverse strut group and the vertical strut group, the end part of the other end of the first front longitudinal strut is respectively provided with a third connecting ring 301, a fourth connecting ring 401, a seventh connecting ring 701 and an eighth connecting ring 801, wherein the first front longitudinal strut 3 passes through the fourth connecting ring 401, the first rear longitudinal strut 4 passes through the third connecting ring 301, the second rear longitudinal strut 7 passes through the eighth connecting ring 801, and the second front longitudinal strut 8 passes through the seventh connecting ring 701; the first front longitudinal bar 3, the first rear longitudinal bar 4, the second rear longitudinal bar 7 and the second front longitudinal bar 8 slide back and forth along the fourth connecting ring 401, the third connecting ring 301, the eighth connecting ring 801 and the seventh connecting ring 701, respectively.

The vertical strut group further comprises a third front longitudinal rod 11, a third rear longitudinal rod 12, a fourth rear longitudinal rod 17 and a fourth front longitudinal rod 18 which are respectively parallel to the first front longitudinal rod 3, the first rear longitudinal rod 4, the second rear longitudinal rod 7 and the second front longitudinal rod 8, maintain the vertical height of the vertical strut group, and are connected with the vertical strut group, one end of the third front longitudinal rod 11, the third rear longitudinal rod 12, the fourth rear longitudinal rod 17 and the fourth front longitudinal rod 18 is connected with the vertical strut group, and the end part of the other end is respectively provided with an eleventh connecting ring 1101, a twelfth connecting ring 1201, a seventeenth connecting ring 1701 and an eighteenth connecting ring 1801; the third front longitudinal rod 11 passes through a twelfth connecting ring 1201, the third rear longitudinal rod 12 passes through an eleventh connecting ring 1101, the fourth rear longitudinal rod 17 passes through an eighteenth connecting ring 1801, the fourth front longitudinal rod 18 passes through a seventeenth connecting ring 1701, and the third front longitudinal rod 11, the third rear longitudinal rod 12, the fourth rear longitudinal rod 17 and the fourth front longitudinal rod 18 slide back and forth along the twelfth connecting ring 1201, the eleventh connecting ring 1101, the eighteenth connecting ring 1801 and the seventeenth connecting ring 1701 respectively.

The vertical strut group comprises a first lower vertical rod 9, a second lower vertical rod 14, a third lower vertical rod 15 and a fourth lower vertical rod 20, one end of each vertical strut group is respectively connected with the transverse strut group and the longitudinal strut group, the end of the other end of each vertical strut group is respectively provided with a ninth connecting ring 901, a fourteenth connecting ring 1401, a fifteenth connecting ring 1501 and a twentieth connecting ring 2001, the vertical strut group further comprises a first upper vertical rod 10, a second upper vertical rod 13, a third upper vertical rod 16 and a fourth upper vertical rod 19, one end of each first upper vertical rod 10, a second upper vertical rod 13, a third upper vertical rod 16 and a fourth upper vertical rod 19 correspondingly penetrate through the ninth connecting ring 901, the fourteenth connecting ring 1401, the thirteenth connecting ring 1001 and the sixteenth connecting ring 1601 of the nineteenth connecting ring 1901, and the other end of each first upper vertical rod 10, the second upper vertical rod 13, the third upper vertical rod 16 and the fourth upper vertical rod 19 are respectively connected with the third front vertical rod 11, the third rear vertical rod 12, the fourth rear vertical rod 17 and the longitudinal rod 19, The fourth front longitudinal bar 18 is connected.

At least one height adjusting block 2 is convexly arranged on the outer end faces of the first lower vertical rod 9, the second lower vertical rod 14, the third lower vertical rod 15 and the fourth lower vertical rod 20, keeping a predetermined distance, and the tenth connecting ring 1001, the thirteenth connecting ring 1301, the sixteenth connecting ring 1601 and the nineteenth connecting ring 1901 are respectively abutted against the corresponding height adjusting block 21. In the present embodiment, two height adjusting blocks 2 are provided, and when the height needs to be adjusted, the first upper vertical rod 10, the second upper vertical rod 13, the third upper vertical rod 16, and the fourth upper vertical rod 19 are lifted and slightly lifted, so that the corresponding tenth connecting ring 1001, the thirteenth connecting ring 1301, the sixteenth connecting ring 1601, and the nineteenth connecting ring 1901 just cross over the height adjusting block 21 and rest above the height adjusting block 21, that is, the requirement of adjusting the height is completed.

Furthermore, the contact parts of the first connecting ring 101, the second connecting ring 201, the fifth connecting ring 501 and the sixth connecting ring 601 with the table top are of a flat structure, so that the whole storage rack can be conveniently placed on the operation table top.

The utility model discloses a theory of operation does: referring to fig. 2, fig. 2 shows that the handles of two forceps are clipped into the storage rack, actually, according to the operation requirement, several to tens of different forceps are placed, the forceps are arranged and clipped in the storage rack, and left and right are attached, the first forceps will lean against one side of the storage rack, such as against the side of the frame enclosed by the first lower vertical rod 9, the second lower vertical rod 14, the first upper vertical rod 10, the second upper vertical rod 13, the third rear vertical rod 12 and the third front vertical rod 11, and the forceps are clipped by the side, the bottom surface table, the front and back first left horizontal rod 1, the first right horizontal rod 2, the second right horizontal rod 5 and the second left horizontal rod 6 of the storage rack, which not only ensures the stability, but also has the convenience of taking and placing, and placing convenience, and adjusting the vertical height and front and back of the storage rack and the span according to the number of the forceps, the left length and the right length of the storage rack are adjusted;

in use, in order to change the length of the bottom, the right end is composed of a first left cross bar 1 and a first right cross bar 2, the left end is composed of a second right cross bar 5 and a second left cross bar 6, a first connecting ring 101 is installed at the rear end of the first left cross bar 1, a second connecting ring 201 is installed at the front end of the first right cross bar 2, the first left cross bar 1 passes through the second connecting ring 201, the first right cross bar 2 passes through the first connecting ring 101, so that the first left cross bar 1 and the first right cross bar 2 are lifted up by the first connecting ring 101 and the second connecting ring 201, the first left cross bar 1 and the first right cross bar 2 can move relative to each other, according to the actual required length, the first left cross bar 1 and the first right cross bar 2 are close to each other, so that the first connecting ring 101 is separated from the first right cross bar 201, the first right cross bar 2 is separated from the first connecting ring 101, and then the length can be adjusted by moving relative to each other, similarly, the left second right cross bar 5 and the second left cross bar 6 are connected in such a way that the second left cross bar 6 is connected to the fifth connecting ring 501 and the second right cross bar 5 is connected to the sixth connecting ring 601, and when the length of the second left cross bar 6 needs to be changed, the second left cross bar 6 is slightly lifted and then moved, and then the second left cross bar 6 is put down when the second left cross bar is moved to a required position.

The first front longitudinal bar 3 and the first rear longitudinal bar 4, and the second rear longitudinal bar 7 and the second front longitudinal bar 8 are all realized by the same principle for the purpose of making it possible to change the bottom width. Secondly, in order to achieve the purpose of height adjustment, firstly, the storage rack is provided with 3 height adjusting blocks 21 on the outer end faces of the first lower vertical rod 9, the second lower vertical rod 14, the third lower vertical rod 15 and the fourth lower vertical rod 20, the height adjusting blocks 21 have the function of preventing the upper support rod from sliding down after adjusting the height, for example, when the height needs to be adjusted, the second upper vertical rod 13 is moved upwards, when the second upper vertical rod 13 is moved to the position of the uppermost height adjusting block 21, the second upper vertical rod 13 is pushed outwards to one point, the thirteenth connecting ring 1301 at the lower end of the second upper vertical rod 13 spans over the height adjusting block 21, the thirteenth connecting ring 1301 is placed above the height adjusting block 21, the height adjusting block 21 is used for blocking the thirteenth connecting ring 1301, the second upper vertical rod 13 is prevented from sliding downwards under the action of gravity, and the length and the support of other support rods in the vertical direction are adjusted in such a way.

In a word, the length, the width and the height of the storage rack can be adjusted according to actual needs, the placement requirements of different quantities of operating forceps with different sizes are met, the storage rack is made of high-temperature and high-pressure resistant materials, the operating forceps can be sterilized along with the operating forceps, the forceps are placed on the storage rack, the use is convenient, meanwhile, the structure is simple, the cleaning and the sterilization are facilitated, the storage rack does not occupy space, the storage rack can be placed on a sterile operation tray, the probability that the operating forceps fall off an operating table is reduced, the storage effect is improved, and the classifying, the placement and the convenient taking of the operating forceps are facilitated; in addition, all the support rods of the device are solid, and compared with a hollow telescopic structure which is easy to store dirt and dirt, the storage rack can achieve the effects of cleaning, drying and sterilizing more easily, and has the characteristics of simple structure, convenience in installation and convenience in placement of operating forceps.

The second embodiment:

referring to fig. 3, the present embodiment is a schematic view of an overall structure of a three-dimensional storage rack for surgical forceps, wherein the length, width and height of the storage rack are extended to the maximum distance, so as to store some different instruments.

Various other modifications and changes may occur to those skilled in the art based on the teachings and concepts herein disclosed, and all such modifications and changes are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a three-dimensional storage rack of operation pincers for place on the mesa, its characterized in that: the multifunctional surgical forceps comprise a transverse supporting rod group which can be stretched left and right and is used for being clamped into surgical forceps, a longitudinal supporting rod group which can be stretched front and back, and a vertical supporting rod group which can be stretched up and down and is used for being abutted against the surgical forceps, wherein the transverse supporting rod group is placed on a table board, the longitudinal supporting rod group is connected to two sides of the transverse supporting rod group, and the vertical supporting rod group is connected to the joint of the transverse supporting rod group and the longitudinal supporting rod group.

2. The stereoscopic storage rack of the surgical forceps as claimed in claim 1, wherein the transverse strut group comprises a first left transverse rod (1), a first right transverse rod (2), a second right transverse rod (5) and a second left transverse rod (6) which are respectively connected with the longitudinal strut group and the vertical strut group at one end, and a first connecting ring (101), a second connecting ring (201), a fifth connecting ring (501) and a sixth connecting ring (601) are respectively arranged on the end parts of the other ends, wherein the first right transverse rod (2) penetrates through the first connecting ring (101), the first left transverse rod (1) penetrates through the second connecting ring (201), the second left transverse rod (6) penetrates through the fifth connecting ring (501), and the second right transverse rod (5) penetrates through the sixth connecting ring (601); the first left cross rod (1), the first right cross rod (2), the second right cross rod (5) and the second left cross rod (6) slide left and right along the second connecting ring (201), the first connecting ring (101), the sixth connecting ring (601) and the fifth connecting ring (501) respectively.

3. The stereoscopic storage rack of the surgical forceps according to claim 1, wherein the longitudinal strut group comprises a first front longitudinal rod (3), a first rear longitudinal rod (4), a second rear longitudinal rod (7) and a second front longitudinal rod (8), one end of each of which is connected with the transverse strut group and the vertical strut group respectively, and the other end of each of which is provided with a third connecting ring (301), a fourth connecting ring (401), a seventh connecting ring (701) and an eighth connecting ring (801), wherein the first front longitudinal rod (3) passes through the fourth connecting ring (401), the first rear longitudinal rod (4) passes through the third connecting ring (301), the second rear longitudinal rod (7) passes through the eighth connecting ring (801), and the second front longitudinal rod (8) passes through the seventh connecting ring (701); the first front longitudinal rod (3), the first rear longitudinal rod (4), the second rear longitudinal rod (7) and the second front longitudinal rod (8) respectively slide back and forth along the fourth connecting ring (401), the third connecting ring (301), the eighth connecting ring (801) and the seventh connecting ring (701).

4. The stereoscopic storage rack of surgical forceps according to claim 3, wherein the longitudinal strut group further comprises a third front longitudinal strut (11), a third rear longitudinal strut (12), a fourth rear longitudinal strut (17), a fourth front longitudinal strut (18), a third front longitudinal strut (11), a third rear longitudinal strut (12), a fourth rear longitudinal strut (17), and a fourth front longitudinal strut (18) which are parallel to the first front longitudinal strut (3), the first rear longitudinal strut (4), the second rear longitudinal strut (7), and the second front longitudinal strut (8), respectively, maintain the vertical height of the vertical strut group, and are connected with the vertical strut group, one end of the third front longitudinal strut (11), the third rear longitudinal strut (12), the fourth rear longitudinal strut (17), and one end of the fourth front longitudinal strut (18) are connected with the vertical strut group, and the other end is provided with an eleventh connecting ring (1101), a twelfth connecting ring (1201), a seventeenth connecting ring (1701), and an eighteenth connecting ring (1801) respectively; the third front longitudinal rod (11) penetrates through a twelfth connecting ring (1201), the third rear longitudinal rod (12) penetrates through an eleventh connecting ring (1101), the fourth rear longitudinal rod (17) penetrates through an eighteenth connecting ring (1801), the fourth front longitudinal rod (18) penetrates through a seventeenth connecting ring (1701), and the third front longitudinal rod (11), the third rear longitudinal rod (12), the fourth rear longitudinal rod (17) and the fourth front longitudinal rod (18) respectively slide forwards and backwards along the twelfth connecting ring (1201), the eleventh connecting ring (1101), the eighteenth connecting ring (1801) and the seventeenth connecting ring (1701).

5. The stereoscopic storage rack of the surgical forceps as claimed in claim 4, wherein the vertical strut assembly comprises a first lower vertical rod (9), a second lower vertical rod (14), a third lower vertical rod (15) and a fourth lower vertical rod (20) of which one ends are respectively connected with the transverse strut assembly and the longitudinal strut assembly, the other ends are respectively provided with a ninth connecting ring (901), a fourteenth connecting ring (1401), a fifteenth connecting ring (1501) and a twentieth connecting ring (2001), and the stereoscopic storage rack further comprises a first upper vertical rod (10), a second upper vertical rod (13) and a third upper vertical rod (16) of which one ends respectively penetrate through the ninth connecting ring (901), the fourteenth connecting ring (1401), the fourteenth connecting ring (1501), the fifteenth connecting ring (1501) and the twentieth connecting ring (2001), and the ends are respectively provided with a tenth connecting ring (1001), a thirteenth connecting ring (1301), a sixteenth connecting ring (1601) and a nineteenth connecting ring (1901), a second upper vertical rod (13) and a third upper vertical rod (16), A fourth upper vertical bar (19); the other ends of the first upper vertical rod (10), the second upper vertical rod (13), the third upper vertical rod (16) and the fourth upper vertical rod (19) are respectively connected with the third front longitudinal rod (11), the third rear longitudinal rod (12), the fourth rear longitudinal rod (17) and the fourth front longitudinal rod (18).

6. The stereoscopic storage rack of the surgical forceps as claimed in claim 5, wherein at least one height adjusting block (21) is convexly arranged on the outer end faces of the first lower vertical rod (9), the second lower vertical rod (14), the third lower vertical rod (15) and the fourth lower vertical rod (20) at a predetermined distance, and the tenth connecting ring (1001), the thirteenth connecting ring (1301), the sixteenth connecting ring (1601) and the nineteenth connecting ring (1901) are respectively abutted against the corresponding height adjusting block (21).

7. The stereoscopic storage rack of the surgical forceps as claimed in claim 2, wherein the contact parts of the first connecting ring (101), the second connecting ring (201), the fifth connecting ring (501) and the sixth connecting ring (601) with the table top are flat structures.