CN113288447A - Surgical instrument arranging box with telescopic foot stool - Google Patents

Abstract

The invention discloses a surgical instrument arranging box with a telescopic foot rest, which structurally comprises a bearing mechanism, a base and a stabilizing frame, wherein the stabilizing frame is welded with the side of the base, the bottom of the bearing mechanism is connected with the upper surface of the base, the telescopic rod can be quickly descended along the outer pipe by directly rotating the adjusting valve at the side of the outer pipe to loosen the adjusting valve, thereby the generated vibration can drive the deformation sheet to shake, so that the deformation sheet can drive the impact block to impact the inner wall of the fixing plate, so that the injection remained on the fixed plate can be guided into the inner part of the built-in groove, the limit block on the lower cavity can limit the swing plate, therefore, the two swinging plates can block the injection liquid in the lower cavity when the bearing mechanism is static, and the situation that the injection liquid in the lower cavity is discharged downwards in the operation process and the floor of an operating room is easily polluted is effectively avoided.

Description

Surgical instrument arranging box with telescopic foot stool

Technical Field

The invention relates to the field of surgical instruments, in particular to a surgical instrument sorting box with a telescopic foot rest.

Background

The surgical instruments arrangement box of flexible foot rest in area is mainly used for putting in order the equipment of depositing to surgical instruments, through placing surgical instruments on the surgical instruments arrangement box of flexible foot rest in area to flexible foot rest can be to height adjustment, thereby make the surgical instruments that the doctor can be smooth take on the surgical instruments arrangement box of flexible foot rest in area, based on the discovery of the inventor of the above-mentioned description, the surgical instruments arrangement box of flexible foot rest in area that has now mainly has following not enough, for example:

because the operation doctor can place the bottled injection of glass on the surgical instruments arrangement box of taking flexible foot rest when carrying out the operation, if the mistake smashes the injection bottle during operation, then can make the injection flow out on surgical instruments arrangement box, if long-time the condition that then easily causes unnecessary pollution to surgical instruments.

Disclosure of Invention

Aiming at the problems, the invention provides a surgical instrument arranging box with a telescopic foot rest.

In order to achieve the purpose, the invention is realized by the following technical scheme: a surgical instrument arranging box with a telescopic foot rest structurally comprises a bearing mechanism, a base and a stabilizing frame, wherein the stabilizing frame is welded with the side of the base, and the bottom of the bearing mechanism is connected with the upper surface of the base; the bearing mechanism comprises an arranging box, a telescopic rod and an outer tube, the bottom of the arranging box is connected with the top of the telescopic rod, and the outer side of the telescopic rod is movably clamped with the inner part of the outer tube.

As a further optimization of the invention, the sorting box comprises a fixed plate, a lower row of cavities, a deformation sheet, an impact block and a built-in groove, wherein the lower row of cavities is embedded in the fixed plate, the deformation sheet is embedded in the upper end position of the inner wall of the fixed plate, the impact block is mounted at the tail end position of the deformation sheet, the built-in groove is embedded in the fixed plate, and the deformation sheet is made of spring steel with high elasticity.

As a further optimization of the invention, the built-in groove comprises a force increasing groove, an external discharge mechanism, an absorption block and a frame, the force increasing groove is embedded in the internal position of the frame, the external discharge mechanism is installed in the internal position of the absorption block, the absorption block is attached to the bottom of the inner wall of the frame, and the absorption block is made of polyester sponge material with strong water absorption.

As a further optimization of the invention, the outer discharge mechanism comprises a frame body, a buoyancy ball and a water inlet, wherein the buoyancy ball is arranged at the inner position of the frame body, the water inlet is embedded in the inner position of the frame body, and the water inlet is of an inner and outer through structure.

As a further optimization of the invention, the lower row of cavities comprises a position fixing frame, limiting blocks and two swinging plates, wherein the limiting blocks are fixed at the inner wall positions of the position fixing frame, the swinging plates are hinged with the inner wall of the position fixing frame, and the two swinging plates are uniformly and symmetrically distributed at the two sides of the inner wall of the position fixing frame.

As a further optimization of the invention, the swinging plate comprises a plate surface, a ring body and a vibrating rod, the plate surface and the ring body are of an integrated structure, the vibrating rod is hinged with the inner wall of the plate surface, and the vibrating rod can impact the inner wall of the plate surface through the throwing force generated by upward swinging of the mechanism, so that the upward swinging amplitude of the plate surface can be increased.

As a further optimization of the invention, the board surface comprises an external row port, a holding board and an internal cavity, the external row port is communicated with the internal cavity, the internal cavity penetrates through the internal position of the holding board, and the internal cavity is in a hollow structure.

As a further optimization of the invention, the outer discharge port comprises a combination frame, a blocking block and a pressurizing block, the blocking block is attached to the lower portion of the inner wall of the combination frame, the pressurizing block is fixedly embedded in the inner position of the blocking block, and the blocking block is made of natural sponge.

The invention has the following beneficial effects:

1. can lead into the inside in built-in groove with the injection liquid of smashing through the arrangement box on bearing the weight of the mechanism, and the operation is accomplished the back, it is not hard up to make it become flexible through the governing valve of direct rotation outer tube avris, can make the telescopic link descend along the outer tube fast, thereby the vibration that makes the production can drive the flexure strip and rock, so make the flexure strip can drive the striking piece and produce the striking to the inner wall of fixed plate, thereby make remaining injection liquid on the fixed plate can be by the inside of leading-in built-in groove, the effectual injection liquid of having avoided stops for a long time and can cause the unnecessary condition of polluting to surgical instruments on the arrangement box.

2. Can carry on spacingly through the stopper on the chamber down, thereby make two swing boards block the injection liquid of intracavity portion under to when the load-bearing mechanism is static, use when load-bearing mechanism and accomplish the back, through the governing valve of not hard up outer tube avris, can make the telescopic link descend along the quick lapse of outer tube, thereby make swing board receive the vibration along the solid frame up-swing of position, thereby make the injection liquid can be through the opening between two swing boards discharge downwards, the effectual injection liquid of intracavity portion under the avoiding is discharged downwards at the in-process of operation, then the condition on easy pollution operating room floor.

Drawings

Fig. 1 is a schematic structural diagram of a surgical instrument organizing box with a telescopic foot stool.

FIG. 2 is a side view of a half-section of the loading mechanism of the present invention.

FIG. 3 is a schematic diagram of a partial side view of a half-section of the organizer according to the present invention.

FIG. 4 is a side view of a half-section of the built-in slot of the present invention.

Fig. 5 is a schematic structural diagram of a side half-section of the outer discharge mechanism of the present invention.

FIG. 6 is a side view of a half-section structure of the lower cavity of the present invention.

FIG. 7 is a side view of a half-section of the swing plate of the present invention.

FIG. 8 is a schematic structural diagram of a side view of a half-section of a panel according to the present invention.

FIG. 9 is a side view of a half-section of the external discharge port of the present invention.

In the figure: the device comprises a bearing mechanism-1, a base-2, a stabilizer-3, an arrangement box-11, a telescopic rod-12, an outer pipe-13, a fixing plate-a 1, a lower row of cavities-a 2, a deformation sheet-a 3, an impact block-a 4, an internal groove-a 5, a force-increasing groove-a 51, an external row mechanism-a 52, an absorption block-a 53, a frame-a 54, a frame-b 1, a buoyancy ball-b 2, a water inlet-b 3, a position-fixing frame-c 1, a limiting block-c 2, a swinging plate-c 3, a plate surface-c 31, a ring-c 32, a vibrating rod-c 33, an external row of openings-d 1, an engagement plate-d 2, an internal cavity-d 3, a combination frame-d 11, a blocking block-d 12 and a pressurizing block-d 13.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides a surgical instrument arranging box with a telescopic foot stool, which structurally comprises a bearing mechanism 1, a base 2 and a stabilizing frame 3, wherein the stabilizing frame 3 is welded with the side of the base 2, and the bottom of the bearing mechanism 1 is connected with the upper surface of the base 2; the bearing mechanism 1 comprises an arranging box 11, an expansion link 12 and an outer tube 13, the bottom of the arranging box 11 is connected with the top of the expansion link 12, and the outer side of the expansion link 12 is movably clamped with the inner part of the outer tube 13.

The tidying box 11 comprises a fixed plate a1, a lower row cavity a2, a deformable sheet a3, an impact block a4 and an internal groove a5, wherein the lower row cavity a2 is embedded in the fixed plate a1, the deformable sheet a3 is embedded in the upper end of the inner wall of the fixed plate a1, the impact block a4 is installed at the tail end of the deformable sheet a3, the internal groove a5 is embedded in the fixed plate a1, the deformable sheet a3 is made of spring steel with high elasticity, and the deformable sheet a3 can drive the impact block a4 to generate impact vibration on the inner wall of the fixed plate a1 after the mechanism suddenly descends.

The built-in groove a5 comprises a force increasing groove a51, an outer discharge mechanism a52, an absorption block a53 and a frame a54, the force increasing groove a51 is embedded in the frame a54, the outer discharge mechanism a52 is installed in the absorption block a53, the absorption block a53 is attached to the bottom of the inner wall of the frame a54, the absorption block a53 is made of polyester sponge with strong water absorption, and the absorption block a53 can absorb injection.

The outer-discharge mechanism a52 comprises a frame b1, a buoyancy ball b2 and a water inlet b3, wherein the buoyancy ball b2 is mounted at the inner position of the frame b1, the water inlet b3 is embedded at the inner position of the frame b1, the water inlet b3 is of an inner-outer through structure, and external injection can be introduced into the water inlet b 3.

The detailed use method and action of the embodiment are as follows:

in the invention, broken injection liquid can be guided into the inner groove a5 through the arrangement box 11 on the bearing mechanism 1, and after the operation is finished, the adjustment valve on the side of the outer tube 13 is directly rotated to loosen the injection liquid, the telescopic rod 12 can be rapidly descended along the outer tube 13, so that the generated vibration can drive the deformation sheet a3 to shake, the deformation sheet a3 can drive the impact block a4 to impact the inner wall of the fixed plate a1, the injection liquid remained on the fixed plate a1 can be guided into the inner groove a5, the injection liquid can be discharged into the bottom of the inner wall through the frame a54, the injection liquid can be absorbed through the absorption block a53, the injection liquid absorbed in the absorption block a53 can be guided into the frame b1 through the water inlet b3, and buoyancy generated on the buoyancy ball b2 made of foam plastic material through the injection liquid accumulated in the frame b1, the buoyancy ball b2 can float upwards, so that the injection in the frame b1 can be discharged downwards through a gap between the buoyancy ball b2 and the frame b1 and then completely discharged downwards through the lower discharge cavity a2, and the situation that the injection stays on the tidying box 11 for a long time to cause unnecessary pollution to surgical instruments is effectively avoided.

Example 2

As shown in fig. 6-9:

the lower row cavity a2 comprises a position fixing frame c1, a limit block c2 and a swinging plate c3, the limit block c2 is fixed at the position of the inner wall of the position fixing frame c1, the swinging plate c3 is hinged with the inner wall of the position fixing frame c1, the number of the swinging plates c3 is two, the two sides of the inner wall of the position fixing frame c1 are uniformly and symmetrically distributed, and the swinging plate c3 can swing upwards along the position fixing frame c1 through the vibration generated by the mechanism descending rapidly downwards, so that the injection can be discharged downwards through an opening between the two swinging plates c 3.

Wherein, swing board c3 includes face c31, ring body c32, vibrating arm c33, face c31 and ring body c32 structure as an organic whole, vibrating arm c33 and the inner wall hinged joint of face c31, through the power of getting rid of that the mechanism swung upwards produced, can make vibrating arm c33 produce the striking to the inner wall of face c31 to the amplitude that makes face c31 upward swing can increase, thereby can accelerate the discharge of mechanism to the injection.

The board surface c31 comprises an outer discharge port d1, a joining plate d2 and a built-in cavity d3, the outer discharge port d1 is communicated with the built-in cavity d3, the built-in cavity d3 penetrates through the inner position of the joining plate d2, the built-in cavity d3 is of a hollow structure, injection between the joining plate d2 and an object can be squeezed into the built-in cavity through the built-in cavity d3, and then the injection is discharged outwards through the outer discharge port d 1.

The outer discharge port d1 comprises a combination frame d11, a blocking block d12 and a pressurizing block d13, the blocking block d12 is attached to the inner wall of the combination frame d11 close to the lower side, the pressurizing block d13 is embedded in the inner position of the blocking block d12, the blocking block d12 is made of natural sponge, and the pressurizing block d13 is impacted by injection liquid, so that the pressurizing block d13 can extrude the blocking block d12, the injection liquid in the blocking block d12 can be extruded out, and dust impurities resisted by the blocking block d12 can be removed.

The detailed use method and action of the embodiment are as follows:

in the invention, since the injection liquid in the frame b1 is directly discharged downwards through the lower row cavity a2, if the injection liquid in the lower row cavity a2 is discharged downwards in the operation process, the floor of the operating room is easily polluted, the swing plate c3 can be limited by the limiting block c2 on the lower row cavity a2, so that the two swing plates c3 can block the injection liquid in the lower row cavity a2 when the carrying mechanism 1 is at rest, after the carrying mechanism 1 is used, the telescopic rod 12 can rapidly slide downwards along the outer tube 13 by loosening the adjusting valve on the side of the outer tube 13, so that the swing plate c3 is vibrated upwards along the fixed frame c1, and the vibration rod c33 can be swung upwards along the plate surface c31, so that the amplitude of the upwards swinging of the plate surface c31 can be increased, and the injection liquid can be discharged downwards through the opening between the two swing plates c3, the injection between the plate surface c31 and the inner wall of the position fixing frame c1 can be squeezed into the built-in cavity d3 by the squeezing of the injection between the plate surface c31 and the inner wall of the position fixing frame c1, and then can be discharged outwards through the outer discharge port d1, and impurities such as dust outside can be blocked by the blocking block d12, and the impurities such as powder attached to the bottom of the blocking block d12 can be flushed by the squeezed injection by the pushing force of the injection discharged from the inner part of the outer discharge port d1 on the pressurizing block d13 and the pressing force of the pressurizing block d13 on the blocking block d12, so that the situation that the floor of an operating room is easily polluted by the downward discharge of the injection in the lower discharge cavity a2 in the process of an operation is effectively avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (8)

1. The utility model provides a surgical instruments arrangement box of flexible foot rest in area, its structure is including bearing mechanism (1), base (2), stabilizer (3) weld its characterized in that mutually with the avris of base (2): the bottom of the bearing mechanism (1) is connected with the upper surface of the base (2);

the carrying mechanism (1) comprises an arranging box (11), a telescopic rod (12) and an outer tube (13), the bottom of the arranging box (11) is connected with the top of the telescopic rod (12), and the outer side of the telescopic rod (12) is movably clamped with the inner part of the outer tube (13).

2. The surgical instrument organizing box with the telescopic foot stool of claim 1, wherein: the tidying box (11) comprises a fixing plate (a1), a lower row of cavities (a2), a deformation sheet (a3), an impact block (a4) and an internal groove (a5), wherein the lower row of cavities (a2) is embedded in the fixing plate (a1), the deformation sheet (a3) is embedded in the upper end position of the inner wall of the fixing plate (a1), the impact block (a4) is installed at the tail end position of the deformation sheet (a3), and the internal groove (a5) is embedded in the internal position of the fixing plate (a 1).

3. The surgical instrument organizing box with the telescopic foot stool as claimed in claim 2, wherein: the built-in groove (a5) comprises a force increasing groove (a51), an outer discharge mechanism (a52), an absorption block (a53) and a frame (a54), wherein the force increasing groove (a51) is embedded in the frame (a54), the outer discharge mechanism (a52) is installed in the absorption block (a53), and the absorption block (a53) is attached to the bottom of the inner wall of the frame (a 54).

4. A surgical instrument organizing box with a telescopic leg stand according to claim 3, characterized in that: the outer discharge mechanism (a52) comprises a frame body (b1), a buoyancy ball (b2) and a water inlet (b3), wherein the buoyancy ball (b2) is installed at the inner position of the frame body (b1), and the water inlet (b3) is embedded in the inner position of the frame body (b 1).

5. The surgical instrument organizing box with the telescopic foot stool as claimed in claim 2, wherein: the lower row of cavities (a2) comprises a position fixing frame (c1), a limiting block (c2) and a swinging plate (c3), the limiting block (c2) is fixed on the inner wall of the position fixing frame (c1), and the swinging plate (c3) is hinged with the inner wall of the position fixing frame (c 1).

6. The surgical instrument organizing box with the telescopic foot stool as claimed in claim 5, wherein: swing board (c3) include face (c31), ring body (c32), vibrating arm (c33), face (c31) and ring body (c32) structure as an organic whole, vibrating arm (c33) and the inner wall hinged joint of face (c 31).

7. The surgical instrument organizing box with the telescopic foot stool as claimed in claim 6, wherein: the plate surface (c31) comprises an outer row port (d1), a joining plate (d2) and a built-in cavity (d3), the outer row port (d1) is communicated with the built-in cavity (d3), and the built-in cavity (d3) penetrates through the inner position of the joining plate (d 2).

8. The surgical instrument organizing box with the telescopic foot stool of claim 7, wherein: the outer discharge port (d1) comprises a combination frame (d11), a blocking block (d12) and a pressurizing block (d13), the blocking block (d12) is attached to the inner wall of the combination frame (d11) in a lower mode, and the pressurizing block (d13) is embedded in the inner position of the blocking block (d 12).

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