CN116650798A

CN116650798A - Drainage tube clamping device

Info

Publication number: CN116650798A
Application number: CN202310642130.4A
Authority: CN
Inventors: 庞源广; 赵克俊; 岑华
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-06-01
Filing date: 2023-06-01
Publication date: 2023-08-29

Abstract

The application belongs to the technical field of medical equipment, and particularly relates to a drainage tube clamping device which comprises a vertical rod, cross arms arranged on two sides of the vertical rod, an installation seat arranged on the surface of the vertical rod and positioned below the cross arms, and a clamping assembly arranged on the cross arms; the clamping assembly comprises a sleeve plate which is connected in the cross arm limiting groove in a sliding mode and an arc-shaped plate which is arranged in the sleeve plate, and one side, facing the sleeve plate, of the arc-shaped plate is provided with a groove; through setting up the clamping component, put into the gyro wheel with the drainage tube between, spring beam atress resilience promotes splint reset until gyro wheel and drainage tube contact to accomplish the fixed to the drainage tube, simultaneously, splint can buckle the direction for the drainage tube, avoid bending the pipeline that leads to many times to block up, make things convenient for medical personnel to carry out drainage operation to the patient.

Description

Drainage tube clamping device

Technical Field

The application belongs to the technical field of medical instruments, and particularly relates to a drainage tube clamping device.

Background

In the current treatment measures of neurosurgery, cerebrospinal fluid drainage is a conventional treatment method, a drainage tube is inserted, the other end of the drainage tube is fixed on a drainage barrel or a drainage bag, so that effusion is drained and conveyed, and as a drainage pipeline is generally longer, in order to avoid supporting the ground, the drainage tube is generally hung by a bracket, and a cross rod is arranged on the bracket to assist medical staff in winding the pipeline, so that the overlong condition of the pipeline is avoided;

although the hanging of the pipeline can be fixed through winding, the pipeline can be bent due to multiple windings, the caliber of the inner wall of the pipeline is reduced, the passing of accumulated liquid is affected, and even the accumulated liquid is blocked.

In order to solve the problems, the application provides a drainage tube clamping device.

Disclosure of Invention

To solve the problems set forth in the background art. The application provides a drainage tube clamping device which has the characteristics of auxiliary clamping, loosening avoidance and convenient adjustment.

In order to achieve the above purpose, the present application provides the following technical solutions: the drainage tube clamping device comprises a vertical rod, cross arms arranged on two sides of the vertical rod, a mounting seat arranged on the surface of the vertical rod and positioned below the cross arms, and a clamping assembly arranged on the cross arms;

the clamping assembly comprises a sleeve plate in the transverse arm limiting groove and an arc plate arranged in the sleeve plate in a sliding mode, the arc plate faces one side of the sleeve plate and is provided with a groove, clamping plates of an indent structure are inserted into two sides of the inner wall of the groove, a plurality of rollers which are distributed at equal intervals in an arc shape are connected in a rotating mode, a spring rod is fixedly arranged on one side, inserted into the groove of the arc plate, of the clamping plates, and one end, away from the clamping plates, of the spring rod is fixedly connected with the arc plate.

As a preferable mode of the drainage tube clamping device, the surface of the roller is provided with a semi-arc groove, and the groove surface of the roller is provided with anti-skid patterns.

As the preferable mode of the drainage tube clamping device, the surface of the arc-shaped plate is inserted with the pushing block, one side of the pushing block inserted into the inner cavity of the arc-shaped plate is welded with the extrusion block A, two sides of the extrusion block A are in abutting connection with the extrusion block B, and one side of the extrusion block B, which is far away from the extrusion block A, is inserted into the groove of the arc-shaped plate and fixedly connected with the surface of the clamping plate.

In the drainage tube clamping device, the extruding block A is of a trapezoid structure, one side of the extruding block B facing the extruding block A is of a slope design, and the slope of the extruding block B is in contact with the trapezoid surface of the extruding block A.

As a preferable mode of the drainage tube clamping device, a semi-annular through groove is formed in one side of the surface of the clamping plate, a sliding block is connected in the through groove in a sliding mode, two sides of the sliding block penetrate through the through groove and are fixedly connected with the inner wall of the sleeve plate, a limiting block is in abutting connection with the position of the surface of the arc plate corresponding to the sliding block, a positioning knob B is connected to the surface of the limiting block in a rotating mode, one end of the positioning knob B penetrates through the surface of the limiting block and is in threaded connection with the surface of the sliding block, a sleeve is sleeved on the surface of the positioning knob B, the sleeve is welded on the surface of the limiting block, the sleeve is connected in a sliding groove formed in the surface of the arc plate in a sliding mode, and the sliding groove is communicated with the through groove.

As the drainage tube clamping device, preferably, a ball body is rotationally connected to a ball groove on the surface of the sleeve plate, a connecting rod is welded on one side of the surface of the ball body, a connecting seat is rotationally connected to one end of the connecting rod, which is far away from the ball body, a connecting block is welded on one side of the connecting seat, which is far away from the connecting rod, and is slidably connected in a limiting groove of the cross arm, an inserting block is inserted on one side surface of the connecting block, which is positioned in the limiting groove, a stress spring is welded on one side of the inserting block, which is far away from the inserting block, and is fixedly connected with the connecting block, clamping blocks with triangular structures are welded on two sides of the connecting seat, and the clamping blocks are inserted in a fixing groove formed in a position corresponding to the inner wall of the limiting groove of the cross arm.

The drainage tube clamping device preferably further comprises an adjusting component arranged between the vertical rod and the cross arm;

the adjusting component comprises a connecting plate welded in a vertical rod port, a positioning knob A rotationally connected to one side of the connecting plate and a screw rod rotationally connected to the inside of the vertical rod, wherein the positioning knob A is inserted into one end of the vertical rod and one end of the screw rod is fixedly connected, a threaded sleeve is screwed on the surface of the screw rod, toothed bars are welded on two sides of the threaded sleeve, a gear is connected to one side, away from the threaded sleeve, of the toothed bars through tooth meshing, the gear is rotationally connected to the inside of the vertical rod, and one side surface, away from the toothed bars, of the toothed bars is fixedly connected with one end of a cross arm at a corresponding position.

As a preferable mode of the drainage tube clamping device, a horn-shaped through hole is formed in the position, corresponding to the cross arm, of the surface of the vertical rod, and one end of the cross arm is inserted into the vertical rod through the through hole.

Compared with the prior art, the application has the beneficial effects that:

through setting up the clamping component, put into the gyro wheel with the drainage tube between, spring beam atress resilience promotes splint reset until gyro wheel and drainage tube contact to accomplish the fixed to the drainage tube, simultaneously, splint can buckle the direction for the drainage tube, avoid bending the pipeline that leads to many times to block up, make things convenient for medical personnel to carry out drainage operation to the patient.

Through setting up adjusting part, drive the screw rod rotation through rotary positioning knob A, when making the swivel nut drive the rack bar and remove along the screw rod, the rack bar passes through tooth promotion gear drive xarm upset to suitable angle to medical personnel can adjust the operation to the erection height of drainage tube as required.

Drawings

The accompanying drawings are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate the application and together with the embodiments of the application, serve to explain the application. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present application;

FIG. 2 is a schematic cross-sectional view of the present application between the pole and the adjustment assembly;

FIG. 3 is a schematic view of the structure of the arc plate of the present application;

FIG. 4 is a schematic cross-sectional view of the present application between a sleeve plate and an arcuate plate;

FIG. 5 is a schematic cross-sectional view of the present application between an arcuate plate and a slider;

FIG. 6 is a schematic cross-sectional view of the cross arm and the nest plate of the present application;

FIG. 7 is a schematic cross-sectional view of the present application showing the connection between the connection block and the insert block;

in the figure:

1. a vertical rod;

2. a cross arm;

3. an adjustment assembly; 31. positioning a knob A; 32. a connecting plate; 33. a screw; 34. a toothed bar; 35. a gear; 36. a screw sleeve;

4. a clamping assembly; 41. an arc-shaped plate; 411. a clamping plate; 412. a roller; 413. a spring rod; 42. a pushing block; 421. extruding a block A; 422. extruding a block B; 43. a sleeve plate; 431. a sphere; 432. a connecting rod; 433. a connecting seat; 44. a slide block; 441. a positioning knob B; 442. a sleeve; 443. a limiting block; 45. a clamping block; 46. a connecting block; 47. inserting blocks; 48. a stress spring;

5. and (5) a mounting seat.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As shown in fig. 1-7;

a drainage tube clamping device comprises a vertical rod 1, cross arms 2 arranged on two sides of the vertical rod 1 and mounting seats 5 arranged on the surface of the vertical rod 1 and positioned below the cross arms 2.

In this embodiment: the vertical rod 1 is arranged on a sickbed handrail or a nursing frame through the mounting seat 5, the drainage tube is hung on the cross arm 2, drainage operation is carried out through the drainage tube, although hanging fixation of a pipeline can be achieved through winding, multiple windings can lead to bending of the pipeline, the caliber of the inner wall of the pipeline is reduced, effusion is affected, even blockage is generated, and the drainage pipeline is made of silica gel or elastic materials.

The drainage tube clamping device also comprises a clamping assembly 4 arranged on the cross arm 2;

the clamping assembly 4 comprises a sleeve plate 43 which is slidably connected in a limit groove of the cross arm 2 and an arc-shaped plate 41 which is arranged in the sleeve plate 43, one side of the arc-shaped plate 41, which faces the sleeve plate 43, is provided with a groove, clamping plates 411 of an indent structure are inserted into two sides of the inner wall of the groove, a plurality of rollers 412 which are distributed in arc-shaped equidistance are connected in a rotating mode, one side, inserted into the groove of the arc-shaped plate 41, of the clamping plates 411 is fixedly provided with a spring rod 413, and one end, far away from the clamping plates 411, of the spring rod 413 is fixedly connected with the arc-shaped plate 41.

In this embodiment: promote splint 411 drive spring bar 413 shrink to suitable position to put into the drainage tube between the gyro wheel 412, loosen splint 411 this moment, spring bar 413 atress resilience promotes splint 411 to reset until gyro wheel 412 and drainage tube contact, thereby accomplish the fixed to the drainage tube, simultaneously, splint 411 can buckle the direction for the drainage tube, avoids the pipeline jam that the bending for many times leads to, makes things convenient for medical personnel to carry out drainage operation to the patient.

In an alternative embodiment, the surface of the roller 412 is provided with semi-arcuate grooves, and the grooved surface of the roller 412 has anti-slip grooves.

In this embodiment: this design is used for increasing the frictional force with between the pipeline, avoids the drainage tube to shift out to can drive the gyro wheel 412 rotatory through pulling the drainage tube, thereby stretch the drainage tube, supplementary medical personnel adjusts the length of drainage tube.

In an alternative embodiment, the surface of the arc plate 41 is inserted with a push block 42, one side of the push block 42 inserted into the inner cavity of the arc plate 41 is welded with an extrusion block a421, two sides of the extrusion block a421 are in abutting connection with an extrusion block B422, and one side of the extrusion block B422 away from the extrusion block a421 is inserted into a groove of the arc plate 41 and fixedly connected with the surface of the clamping plate 411.

In this embodiment: when pushing the push block 42 to drive the extrusion block A421 to move, the extrusion block A421 pushes the extrusion block B422 to drive the clamping plates 411 to move, so that the distance between the clamping plates 411 is adjusted by the auxiliary medical staff, and the drainage tube is conveniently placed into the drainage tube by the medical staff.

In an alternative embodiment, the extrusion block a421 has a trapezoid structure, a side of the extrusion block B422 facing the extrusion block a421 is designed as a slope, and the slope of the extrusion block B422 collides with the trapezoid surface of the extrusion block a 421.

In this embodiment: this design is used for providing motion guide to the extrusion piece B422, makes things convenient for medical personnel to adjust the operation to the distance between the splint 411.

In an alternative embodiment, a semi-annular through groove is formed on the surface of the clamping plate 411 at one side of the groove, a sliding block 44 is slidably connected in the through groove, two sides of the sliding block 44 penetrate through the through groove and are fixedly connected with the inner wall of the sleeve plate 43, a limiting block 443 is in abutting connection with the position of the surface of the arc plate 41 corresponding to the sliding block 44, a positioning knob B441 is rotatably connected to the surface of the limiting block 443, one end of the positioning knob B441 penetrates through the surface of the limiting block 443 and is in threaded connection with the surface of the sliding block 44, a sleeve 442 is sleeved on the surface of the positioning knob B441, the sleeve 442 is welded on the surface of the limiting block 443, the sleeve 442 is slidably connected in a sliding groove formed on the surface of the arc plate 41, and the sliding groove is communicated with the through groove.

In this embodiment: when pushing the arc 41 to move along the sliding block 44, the arc 41 is turned over to a proper angle along the sliding block 44, and the limiting block 443 is driven to abut against the arc 41 through the rotary positioning knob B441, so that the arc 41 is fixed, and the medical staff can conveniently adjust the installation angle of the arc 41 according to the requirement.

In an alternative embodiment, a ball 431 is rotationally connected to a ball groove on the surface of the sleeve plate 43, a connecting rod 432 is welded to one side of the surface of the ball 431, one end of the connecting rod 432 away from the ball 431 is rotationally connected to a connecting seat 433, one side of the connecting seat 433 away from the connecting rod 432 is welded to a connecting block 46, the connecting block 46 is slidably connected in a limiting groove of the cross arm 2, an inserting block 47 is inserted into one side surface of the connecting block 46, a stress spring 48 is welded to one side of the inserting block 47, one end of the stress spring 48 away from the inserting block 47 is fixedly connected with the connecting block 46, clamping blocks 45 of triangular structures are welded to two sides of the surface of the connecting block 46, and the clamping blocks 45 are inserted into fixing grooves formed in corresponding positions of the inner walls of the limiting groove of the cross arm 2.

In this embodiment: pushing the sleeve plate 43 to drive the connecting seat 433 to press the connecting block 46, enabling the connecting block 46 to drive the clamping block 45 to separate from the cross arm 2, simultaneously enabling the inserting block 47 to be received in the connecting block 46, pushing the sleeve plate 43 to move to a proper position along the cross arm 2, loosening the sleeve plate 43, enabling the stress spring 48 to bear force to rebound to push the inserting block 47 to collide with the cross arm 2, enabling the connecting block 46 to drive the clamping block 45 to move downwards, enabling the clamping block 45 to be inserted into a fixing groove at a corresponding position, and further assisting medical staff to adjust the placement position of the drainage tube.

Further, the method comprises the following steps:

in combination with the above, the device also comprises an adjusting component 3 arranged between the vertical rod 1 and the cross arm 2;

the adjusting component 3 comprises a connecting plate 32 welded in a port of the vertical rod 1, a positioning knob A31 rotatably connected to one side of the connecting plate 32 and a screw rod 33 rotatably connected to the inside of the vertical rod 1, one end of the positioning knob A31 inserted into the vertical rod 1 is fixedly connected with one end of the screw rod 33, a threaded sleeve 36 is screwed on the surface of the screw rod 33, toothed bars 34 are welded on two sides of the threaded sleeve 36, a gear 35 is connected to one side, away from the threaded sleeve 36, of the toothed bars 34 through tooth meshing, the gear 35 is rotatably connected to the inside of the vertical rod 1, and one side surface, away from the toothed bars 34, of the gear 35 is fixedly connected with one end of the cross arm 2 at a corresponding position.

In an alternative embodiment, a horn-shaped through hole is formed in the surface of the upright 1 at a position corresponding to the cross arm 2, and one end of the cross arm 2 is inserted into the upright 1 through the through hole.

In this embodiment: the screw rod 33 is driven to rotate by rotating the positioning knob A31, so that the threaded sleeve 36 drives the toothed bar 34 to move along the screw rod 33, and meanwhile, the toothed bar 34 drives the cross arm 2 to overturn to a proper angle by the toothed pushing gear 35, so that medical staff can adjust the erection height of the drainage tube according to needs.

The working principle and the using flow of the application are as follows: the pushing sleeve plate 43 drives the connecting seat 433 to press the connecting block 46, when the connecting block 46 drives the clamping block 45 to separate from the cross arm 2, the inserting block 47 is retracted into the connecting block 46, and when the sleeve plate 43 is pushed to move to a proper position along the cross arm 2, the sleeve plate 43 is loosened, the stress spring 48 is stressed to rebound to push the inserting block 47 to collide with the cross arm 2, the connecting block 46 drives the clamping block 45 to move downwards, the clamping block 45 is inserted into the fixing groove at a corresponding position, thereby assisting medical staff to adjust the installation position of the drainage tube, when the arc 41 is pushed to move along the sliding block 44, the arc 41 is turned to a proper angle along the sliding block 44, and the limiting block 443 is driven to collide with the arc 41 through the rotary positioning knob B441, the fixing of the arc 41 is completed, the medical staff can conveniently adjust the installation angle of the arc 41 according to needs, when the pushing block 42 is pushed to drive the extruding block A to move, the extruding block A421 pushes the extruding block B422 to drive the clamping plate 411 to move, and the drainage tube is placed between the rolling wheels 412, the spring rod 413 is stressed to rebound to push the rolling wheels 411 until the rolling wheels 412 are contacted with the rolling wheels, thereby complete the fixing of the drainage tube, the tooth 33 can be turned to a proper angle along the toothed bar 34 through the rotary positioning knob 33, and the toothed bar 33 can be driven to rotate along the toothed bar 34 to rotate to adjust the tooth 33 according to the proper angle, and the tooth 33 can be adjusted along with the tooth profile adjustment of the tooth profile 35.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present application, and the present application is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present application has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. The utility model provides a drainage tube clamping device, includes pole setting (1) and installs xarm (2) of pole setting (1) both sides and install pole setting (1) surface and be located mount pad (5) of xarm (2) below, its characterized in that: the clamping assembly (4) is arranged on the cross arm (2);

clamping assembly (4) are in including sliding connection cover board (43) in xarm (2) spacing groove and install arc (41) in cover board (43), arc (41) orientation cover board (43) one side is seted up flutedly, and recess inner wall both sides all peg graft splint (411) that have indent structure, splint (411) rotation is connected with a plurality of gyro wheels (412) that are arc equidistance and distribute, splint (411) are inserted one side in the recess of arc (41) is fixed and is equipped with spring bar (413), and spring bar (413) are kept away from splint (411) one end with arc (41) fixed connection.

2. The drain tube gripping apparatus of claim 1, wherein: semi-arc grooves are formed in the surface of the roller (412), and anti-skidding patterns are formed in the surface of the grooves of the roller (412).

3. The drain tube gripping apparatus of claim 1, wherein: push block (42) has been pegged graft on arc (41) surface, push block (42) inserts one side welding in the inner chamber of arc (41) has extrusion piece A (421), and the both sides conflict of extrusion piece A (421) are connected with extrusion piece B (422), extrusion piece B (422) are kept away from one side of extrusion piece A (421) inserts in the recess of arc (41) and with the fixed surface of splint (411) is connected.

4. The drain tube gripping apparatus of claim 3, wherein: the extrusion block A (421) is of a trapezoid structure, one side of the extrusion block B (422) facing the extrusion block A (421) is of a slope design, and the slope of the extrusion block B (422) is in contact with the trapezoid surface of the extrusion block A (421).

5. The drain tube gripping apparatus of claim 1, wherein: semi-annular through grooves are formed in the surface of the clamping plate (411) on one side of the groove, sliding blocks (44) are connected in the through grooves in a sliding mode, the through grooves are formed in two sides of each sliding block (44) in a penetrating mode, limiting blocks (443) are fixedly connected with the inner walls of the sleeve plates (43) in a abutting mode, corresponding to the positions of the sliding blocks (44), of the surfaces of the arc plates (41), positioning knobs B (441) are connected to the surfaces of the limiting blocks (443) in a rotating mode, one ends of the positioning knobs B (441) penetrate through the surfaces of the limiting blocks (443) and are in threaded connection with the surfaces of the sliding blocks (44), sleeves (442) are sleeved on the surfaces of the positioning knobs B (441), the sleeves (442) are welded on the surfaces of the limiting blocks (443), the sliding grooves formed in the surfaces of the arc plates (41) in a sliding mode, and the sliding grooves are communicated with the through grooves.

6. The drain tube gripping apparatus of claim 1, wherein: the ball groove rotation on cover board (43) surface is connected with spheroid (431), the welding of one side of the surface of spheroid (431) has connecting rod (432), and connecting rod (432) are kept away from the one end rotation of spheroid (431) is connected with connecting seat (433), connecting seat (433) are kept away from one side welding of connecting rod (432) has connecting block (46), and connecting block (46) sliding connection is in the spacing groove of xarm (2), connecting block (46) are located one side surface grafting in the spacing groove has inserted block (47), inserted block (47) are inserted one side welding of connecting block (46) has stress spring (48), and one end that stress spring (48) kept away from inserted block (47) with connecting block (46) fixed connection, connecting block (46) surface is located fixture block (45) that the both sides of connecting seat (433) all weld triangle structure, and fixture block (45) are pegged graft in the fixed slot that xarm (2) spacing groove inner wall corresponds the position and offer.

7. The drain tube gripping apparatus of claim 1, wherein: the device also comprises an adjusting component (3) arranged between the vertical rod (1) and the cross arm (2);

the adjusting component (3) comprises a connecting plate (32) welded in a port of the vertical rod (1) and a positioning knob A (31) rotationally connected to one side of the connecting plate (32) and a screw rod (33) rotationally connected to the inside of the vertical rod (1), the positioning knob A (31) is inserted into one end of the vertical rod (1) and one end of the screw rod (33) is fixedly connected, a threaded sleeve (36) is screwed on the surface of the screw rod (33), toothed bars (34) are welded on two sides of the threaded sleeve (36), one side, far away from the threaded sleeve (36), of the toothed bars (34) is connected with a gear (35) through tooth meshing, the gear (35) is rotationally connected to the inside of the vertical rod (1), and one side surface, far away from the toothed bars (34), of the toothed bars is fixedly connected with one end of the cross arm (2) at a corresponding position.

8. The drain tube gripping apparatus of claim 7, wherein: a horn-shaped through hole is formed in the position, corresponding to the cross arm (2), of the surface of the vertical rod (1), and one end of the cross arm (2) is inserted into the vertical rod (1) through the through hole.