CN112451794B

CN112451794B - Clinical treatment bracket for neurology and use method thereof

Info

Publication number: CN112451794B
Application number: CN202011578589.5A
Authority: CN
Inventors: 吴雪
Original assignee: Individual
Current assignee: Yu Xiang
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2022-11-25
Anticipated expiration: 2040-12-28
Also published as: CN112451794A

Abstract

The invention discloses a clinical treatment bracket for neurology and a using method thereof, wherein the clinical treatment bracket comprises a base, a support rod is welded on the outer surface of the base, the outer surface of the support rod is connected with a connecting frame in a sliding manner, the inner side of the connecting frame is symmetrically hinged with two connecting rods through two damping rotating shafts, and the inner side of each connecting rod is hinged with a rotating block through a damping rotating shaft; the structure and the cooperation between the needle bearing and the sleeve are utilized to realize the self-adjustment and the improvement of the connection angle of the infusion tube which is dragged in a small amplitude, when the infusion tube is dragged by a large force, the ball of the sleeve is utilized to be matched with the chute structure of the second shell for adjustment under the action of external force, and after the external force disappears, the sleeve drives the second clamping block and the first clamping block to realize the resetting under the action of the return stroke and the attraction force of the external force; the overload protection of the axial angle of the infusion tube is realized, and the phenomenon that the folding angle of the infusion tube is too high and even the infusion tube is broken due to large dragging force is avoided.

Description

Clinical treatment bracket for neurology and use method thereof

Technical Field

The invention relates to the technical field of medical instruments, in particular to a clinical treatment bracket for neurology and a using method thereof.

Background

During the treatment process of gastrointestinal surgery in modern medical treatment, a tube is usually inserted into the abdomen of a patient to drain effusion in the abdominal cavity (for example, a plurality of drainage tubes are used when double-cannula drainage of the abdominal cavity is needed in a duodenal fistula-making operation); when the drainage tube is embedded into a patient clinically, gauze and adhesive tapes are mostly adopted to fix the drainage tube at the positions of an operating table, an operating rack or a storage rack and the like after the drainage tube is placed into a drainage position, so that the operation is very troublesome, time and labor are wasted, the fixation is not firm, and the working difficulty is increased for medical personnel; meanwhile, due to the fact that a patient is dragged in the operation process, the soft infusion tube is easily folded and extruded, the water pressure is instantly changed, and the body treatment of the patient is easily affected.

Therefore, a clinical treatment bracket for neurology and a using method thereof are provided.

Disclosure of Invention

The invention aims to provide a clinical treatment bracket for neurology and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a clinical treatment support of department of neurology, includes the base, the outer skin weld of base has the bracing piece, the surface sliding connection of bracing piece has the link, the inboard of link articulates through two damping pivot symmetries has two connecting rods, the inboard of connecting rod articulates through the damping pivot has rotatory piece, the front surface of rotatory piece has fixed base through screw threaded connection, fixed base's front surface has first casing through screw threaded connection, the inboard welding of first casing has rotatory sleeve, the front surface of first casing is equipped with the second casing, the inside wall welding of second casing has the connecting axle, the surface of connecting axle with rotatory telescopic inside wall is articulated, the inside wall sliding connection of second casing has two push shafts, the surface of push shaft is equipped with the spring, the spring with the outer skin weld of push shaft has first fixture block, another the spring with another the outer skin weld of push shaft has the second fixture block, the inside wall of second casing is equipped with the sleeve, telescopic inside wall rotation is connected with two balls, telescopic surface integrated into one piece has the arc flange, telescopic surface integrated into one piece welds in the arc wall, the surface of arc flange with the outer skin of second fixture block adaptation of second casing, the outer wall adaptation of bearing tile.

As further preferable in the present technical solution: the inner side wall of the connecting frame is bonded with a damping sleeve, and the inner side wall of the damping sleeve is in interference connection with the outer surface of the supporting rod.

As further preferable in the present technical solution: the front surface symmetry integrated into one piece of first casing has two fillets, the front surface of fillet with the back surface looks adaptation of second casing.

As a further preferred aspect of the present invention: the rear surface of the first shell is uniformly and integrally formed with reinforcing ribs.

As further preferable in the present technical solution: the inner side wall of the first shell is in threaded connection with a threaded knob, and the outer surface of the threaded knob is in threaded connection with the inner side wall of the second shell.

As further preferable in the present technical solution: two sliding grooves are symmetrically formed in the inner side wall of the second shell, and the outer surfaces of the balls are matched with the inner side wall of each sliding groove.

In addition, the invention also provides a use method of the clinical treatment bracket for the neurology department, which comprises the following steps:

s1, firstly, a connecting frame is matched and adjusted on the outer surface of a supporting rod through a damping sleeve, an inclination angle of a connecting rod relative to the connecting frame and an inclination angle of a rotating block relative to the connecting rod are adjusted after a proper height is selected, and then a transfusion tube is inserted into a fixed base, passes through a first shell and a second shell, reaches the interior of the sleeve and is matched with an inner tile of a needle bearing;

s2, then rotating the adjusting threaded knob, selecting an inclination angle between the first shell and the second shell by utilizing forward rotation or reverse rotation, directly contacting and adapting the first shell and the second shell by utilizing a fillet structure, and continuously adjusting the rotation angle between the rotating sleeve of the first shell and the connecting shaft to realize two-point fixation;

s3, in the using process, due to the fact that the threads of the threaded knob are locked, the angle between the matched node of the infusion tube and the first shell is always unchanged, and when the infusion tube is dragged by small force, the needle roller bearing can automatically adjust and improve the axial angle between the needle roller bearing and the sleeve; when the infusion tube is dragged by a large force, the ball of the sleeve can be matched with the sliding groove structure of the second shell for adjustment under the action of an external force, and during the period, the second fixture block structure of the sleeve can be in tangential fit when contacting the curved surface structure of the arc-shaped flange, and meanwhile, the first fixture block can also be in tangential fit with the arc-shaped groove, and the first fixture block and the arc-shaped groove drive respective springs and the push shaft to perform compression stroke mechanical self-locking; and after the external force disappears, the sleeve drives the second clamping block and the first clamping block to reset under the action of the return stroke and the attractive force of the external force.

As a further preferred aspect of the present invention: and S3, the ball of the sleeve is matched with the sliding groove to drive the second clamping block and the first clamping block to reset.

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

1. the matching between the screw knob, the rotary sleeve and the connecting shaft is utilized to realize the angle fixation of the transfusion folding direction of the transfusion tube on the basis of a fillet structure, thereby avoiding the continuous change of the folding angle of the transfusion tube caused by the operation or the dragging of a patient in the operation process;

2. the self-adjustment and the improvement of the connection angle of the infusion tube with small pulling amplitude are realized by utilizing the structure and the matching between the needle bearing and the sleeve, when the infusion tube is pulled by a large force, the ball of the sleeve is matched with the chute structure of the second shell under the action of an external force for adjustment, the second fixture block structure is matched tangentially when contacting with the curved surface structure of the arc-shaped flange, meanwhile, the first fixture block is also matched tangentially with the arc-shaped chute, the first fixture block and the arc-shaped chute drive respective springs and the push shaft to carry out mechanical self-locking of a compression stroke, and after the external force disappears, the sleeve drives the second fixture block and the first fixture block to realize resetting under the action of the return stroke and the pull force of the external force; the overload protection of the axial angle of the infusion tube is realized, and the phenomenon that the folding angle of the infusion tube is too high and even the infusion tube is broken due to large dragging force is avoided;

3. the cooperation of link cooperation regulation between the bracing piece to and the cooperation between connecting rod and the rotatory piece, realize the arbitrary regulation nature of this device's height, angle, can satisfy different cooperation needs according to actual conditions.

Drawings

FIG. 1 is a perspective front view of the present invention;

FIG. 2 is a perspective view of the rear view of the present invention;

FIG. 3 is a schematic perspective view of the connecting frame of the present invention;

FIG. 4 is a perspective view of the fixing base of the present invention;

FIG. 5 is a schematic view of a rounded corner three-dimensional structure of the present invention;

FIG. 6 is a perspective view of the first housing of the present invention;

FIG. 7 is a perspective view of the threaded knob of the present invention;

fig. 8 is a schematic perspective view of the sleeve of the present invention.

In the figure: 1. a base; 2. a support bar; 4. a connecting frame; 401. a damping sleeve; 5. a connecting rod; 501. rotating the block; 6. a fixed base; 7. a first housing; 701. round corners; 702. rotating the sleeve; 703. reinforcing ribs; 8. a threaded knob; 9. a second housing; 901. a connecting shaft; 902. a chute; 10. pushing the shaft; 1001. a spring; 11. a first clamping block; 12. a second fixture block; 13. a sleeve; 1301. a ball bearing; 1302. an arcuate flange; 1303. an arc-shaped slot; 14. a needle bearing.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Examples

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a clinical treatment support of department of neurology, the on-line screen storage device comprises a base 1, the outer skin weld of base 1 has bracing piece 2, the surface sliding connection of bracing piece 2 has link 4, the inboard of link 4 articulates through two damping pivot symmetries has two connecting rods 5, the inboard of connecting rod 5 articulates through the damping pivot has rotatory piece 501, the front surface of rotatory piece 501 has fixed baseplate 6 through screw threaded connection, fixed baseplate 6's front surface has first casing 7 through screw threaded connection, the inboard welding of first casing 7 has rotatory sleeve 702, the front surface of first casing 7 is equipped with second casing 9, the inside wall welding of second casing 9 has connecting axle 901, the surface of connecting axle 901 articulates with the inside wall of rotatory sleeve 702, the inside wall sliding connection of second casing 9 has two push shafts 10, the surface of push shaft 10 is equipped with spring 1001, spring 1001 has first fixture block 11 with the skin weld of push shaft 10, another spring 1001 has second fixture block 12 with the outer skin weld of another push shaft 10, the inside wall of second casing 9 is equipped with sleeve 1301, the inside wall rotation of sleeve 13 has two ball welds in the outer skin welds in the outer surface of sleeve 1302, sleeve 13 has the outer surface adaptation of arc flange 1303 and the outer surface of second fixture block 11, there is the outer surface adaptation of arc groove 1303 of sleeve 1303 and the outer surface of second sleeve 14, outer surface of the outer surface of sleeve 1302, outer surface of sleeve 13, outer surface adaptation of sleeve 1302, outer surface of sleeve 13 and the outer surface of sleeve 1303, outer surface of sleeve 14.

In this embodiment, specifically: a damping sleeve 401 is bonded on the inner side wall of the connecting frame 4, and the inner side wall of the damping sleeve 401 is in interference connection with the outer surface of the support rod 2; the connecting frame 4 is matched and adjusted on the outer surface of the supporting rod 2 through the damping sleeve 401, and the requirement of random adjustability of the height is met.

In this embodiment, specifically: the front surface of the first shell 7 is symmetrically and integrally formed with two fillets 701, and the front surface of each fillet 701 is matched with the rear surface of the second shell 9; the first shell 7 is in direct contact with and tangent to the second shell 9 by using a fillet 701 structure, and the angle adjustment of the first shell 7 and the second shell 9 is realized in an auxiliary manner.

In this embodiment, specifically: reinforcing ribs 703 are uniformly and integrally formed on the rear surface of the first housing 7; the reinforcing ribs 703 can provide higher load resistance for the first shell 7, prevent the outer skin of the engineering plastic from collapsing, and assist in prolonging the service life of the device.

In this embodiment, specifically: the inner side wall of the first shell 7 is in threaded connection with a threaded knob 8, and the outer surface of the threaded knob 8 is in threaded connection with the inner side wall of the second shell 9; the adjusting screw knob 8 is rotated to select the inclination angle between the first shell 7 and the second shell 9 by forward rotation or reverse rotation, and the first shell 7 is in direct contact and fit with the second shell 9 by using a round corner 701 structure.

In this embodiment, specifically: two spouts 902 have been seted up to second casing 9's inside wall symmetry, and the surface of ball 1301 and the inside wall adaptation of spout 902, when the transfer line received great power to be dragged, the ball 1301 of sleeve 13 can cooperate second casing 9's spout 902 structural adjustment under the effect of external force, provides the prerequisite for the cooperation between the subsequent corresponding structure.

s1, firstly, a connecting frame 4 is matched and adjusted on the outer surface of a supporting rod 2 through a damping sleeve 401, after a proper height is selected, the inclination angle of a connecting rod 5 relative to the connecting frame 4 and the inclination angle of a rotating block 501 relative to the connecting rod 5 are adjusted, then, a transfusion tube is inserted into a fixed base 6, and reaches the interior of a sleeve 13 through a first shell 7 and a second shell 9 and is matched with an inner tile of a needle bearing 14;

s2, subsequently, the adjusting threaded knob 8 is rotated, the inclination angle of the first shell 7 relative to the second shell 9 is selected by utilizing forward rotation or reverse rotation, the first shell 7 is in direct contact and adaptation with the second shell 9 by utilizing a fillet 701 structure, and meanwhile, the rotating sleeve 702 of the first shell 7 can continuously adjust the rotating angle between the rotating sleeve and the connecting shaft 901 to realize two-point fixation;

s3, in the using process, due to the fact that the threads of the thread knob 8 are locked, the angle between a matching node of the infusion tube and the first shell 7 is constant all the time, and when the infusion tube is dragged by small force, the needle bearing 14 can automatically adjust and improve the axial angle between the needle bearing 14 and the sleeve 13; when the infusion tube is dragged by a large force, the ball 1301 of the sleeve 13 is matched with the sliding groove 902 structure of the second shell 9 for adjustment under the action of an external force, and during the period, the structure of the second fixture block 12 of the sleeve 13 is in tangential fit when contacting the curved surface structure of the arc-shaped flange 1302, and meanwhile, the first fixture block 11 is also in tangential fit with the arc-shaped groove 1303, and the two drive the respective spring 1001 and the push shaft 10 to perform compression stroke mechanical self-locking; and after the external force disappears, the sleeve 13 drives the second fixture block 12 and the first fixture block 11 to reset under the action of the return stroke and the attractive force of the external force.

In this embodiment, specifically: in S3, the ball 1301 of the sleeve 13 cooperates with the sliding groove 902 to drive the second latch 12 and the first latch 11 to reset.

Working principle or structural principle: by utilizing the matching between the threaded knob 8 and the rotating sleeve 702 and the connecting shaft 901, the first shell 7 is in direct contact and tangency with the second shell 9 by utilizing a fillet 701 structure, the angle adjustment of the first shell 7 and the second shell 9 is realized in a matching auxiliary way, the angle fixation of the transfusion folding direction of the transfusion tube is realized, and the continuous change of the folding angle of the transfusion tube caused by the operation in the operation process or the dragging of a patient is avoided;

when the infusion tube is dragged by a small force, the needle bearing 14 can automatically adjust and improve the axial angle between the needle bearing 14 and the sleeve 13 by utilizing the structure and the matching between the needle bearing 14 and the sleeve 13; when the infusion tube is dragged by a large force, the ball 1301 of the sleeve 13 is matched with the sliding groove 902 structure of the second shell 9 for adjustment under the action of an external force, and during the period, the structure of the second fixture block 12 of the sleeve 13 is in tangential fit when contacting the curved surface structure of the arc-shaped flange 1302, and meanwhile, the first fixture block 11 is also in tangential fit with the arc-shaped groove 1303, and the two drive the respective spring 1001 and the push shaft 10 to perform compression stroke mechanical self-locking; when the external force disappears, the sleeve 13 drives the second fixture block 12 and the first fixture block 11 to reset under the action of the return stroke and the attractive force of the external force; the overload protection of the axial angle of the infusion tube is realized, and the phenomenon that the folding angle of the infusion tube is too high and even the infusion tube is broken due to large dragging force is avoided;

adjust the link 4 cooperation in the surface of bracing piece 2 through damping sleeve 401, select behind the suitable height will adjust connecting rod 5 and compare in the inclination of link 4 to and rotatory piece 501 compares in the inclination between connecting rod 5, realize the arbitrary regulation nature of the height of this device, angle, can satisfy different cooperation needs according to actual conditions.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a clinical treatment support of department of neurology, includes base (1), its characterized in that: the outer surface of the base (1) is welded with a supporting rod (2), the outer surface of the supporting rod (2) is connected with a connecting frame (4) in a sliding mode, the inner side of the connecting frame (4) is symmetrically hinged with two connecting rods (5) through two damping rotating shafts, the inner side of each connecting rod (5) is hinged with a rotating block (501) through the damping rotating shafts, the front surface of each rotating block (501) is connected with a fixed base (6) through screw threads, the front surface of each fixed base (6) is connected with a first shell (7) through screw threads, the inner side of each first shell (7) is welded with a rotating sleeve (702), the front surface of each first shell (7) is provided with a second shell (9), the inner side wall of each second shell (9) is welded with a connecting shaft (901), the outer surface of each connecting shaft (901) is hinged with the inner side wall of each rotating sleeve (702), the inner side wall of each second shell (9) is connected with two pushing shafts (10) in a sliding mode, the outer surface of each pushing shaft (10) is provided with a spring (1001), the spring (1001) and the outer surface of the other pushing shaft (10) is welded with a first clamping block (11), and the other clamping block (1001) is provided with a second clamping block (12), two balls (1301) are rotatably connected to the inner side wall of the sleeve (13), an arc-shaped flange (1302) is integrally formed on the outer surface of the sleeve (13), an arc-shaped groove (1303) is integrally formed on the outer surface of the sleeve (13), the outer surface of the arc-shaped flange (1302) is matched with the outer surface of the second fixture block (12), the inner side wall of the arc-shaped groove (1303) is matched with the outer surface of the first fixture block (11), and the inner side wall of the sleeve (13) is welded to an outer tile of the needle bearing (14);

the front surface of the first shell (7) is symmetrically and integrally formed with two fillets (701), and the front surface of each fillet (701) is matched with the rear surface of the second shell (9);

the inner side wall of the first shell (7) is in threaded connection with a threaded knob (8), and the outer surface of the threaded knob (8) is in threaded connection with the inner side wall of the second shell (9);

two sliding grooves (902) are symmetrically formed in the inner side wall of the second shell (9), and the outer surface of the ball (1301) is matched with the inner side wall of each sliding groove (902).

2. A neurological clinical treatment scaffold according to claim 1, wherein: the inside wall of link (4) bonds and has damping sleeve (401), the inside wall of damping sleeve (401) with the surface interference of bracing piece (2) is connected.

3. A neurological clinical treatment scaffold according to claim 1, wherein: reinforcing ribs (703) are uniformly and integrally formed on the rear surface of the first shell (7).

4. The application method of the neurology clinical treatment support is characterized by comprising the following steps:

s1, firstly, a connecting frame (4) is matched and adjusted on the outer surface of a supporting rod (2) through a damping sleeve (401), the inclination angle of a connecting rod (5) relative to the connecting frame (4) and the inclination angle of a rotating block (501) relative to the connecting rod (5) are adjusted after a proper height is selected, then, an infusion tube is inserted into a fixed base (6), and reaches the interior of a sleeve (13) through a first shell (7) and a second shell (9) and is matched with an inner tile of a needle bearing (14);

s2, then, rotating the adjusting threaded knob (8), selecting an inclination angle of the first shell (7) relative to the second shell (9) by utilizing forward rotation or reverse rotation, directly contacting and adapting the first shell (7) with the second shell (9) by utilizing a fillet (701) structure, and continuously adjusting a rotation angle between the rotating sleeve (702) of the first shell (7) and the connecting shaft (901) to realize two-point fixation;

s3, in the using process, due to the fact that the threads of the thread knob (8) are locked, the angle between a matched node of the infusion tube and the first shell (7) is constant all the time, and when the infusion tube is dragged by small force, the needle roller bearing (14) can automatically adjust and improve the axial angle between the needle roller bearing and the sleeve (13); when the infusion tube is dragged by a large force, the ball (1301) of the sleeve (13) can be matched with the sliding groove (902) structure of the second shell (9) under the action of an external force for adjustment, and during the period, the structure of the second fixture block (12) of the sleeve (13) is in tangential fit when contacting the curved surface structure of the arc-shaped flange (1302), and meanwhile, the first fixture block (11) is also in tangential fit with the arc-shaped groove (1303), and the first fixture block drive the respective spring (1001) and the push shaft (10) to perform compression stroke mechanical self-locking; and after the external force disappears, the sleeve (13) drives the second clamping block (12) and the first clamping block (11) to reset under the action of the return stroke and the attractive force of the external force.

5. The use method of the neurological clinical treatment stent according to claim 4, wherein the use method comprises the following steps: in the S3, the balls (1301) of the sleeve (13) are matched with the sliding groove (902) to drive the second clamping block (12) and the first clamping block (11) to reset.