阅读说明：本技术 一种骨科患者用的保护上肢动脉装置 (Protection upper limbs artery device that orthopedics patient used ) 是由 李源力 于 2020-07-16 设计创作，主要内容包括：本发明提供一种骨科患者用的保护上肢动脉装置,其结构包括第一束紧带、套筒结构、橡胶套筒、进风套筒结构、第二束紧带,第一束紧带右侧与套筒结构左侧相粘结,橡胶套筒位于套筒结构与进风套筒结构之间且通过胶溶液粘结,进风套筒结构下端与第二束紧带上端相粘结,本发明通过设置套筒结构与导风筒结构,从而能够很好的对上肢进行保护的作用,有效的防止上肢受到拐杖或外部物件撞击时磕疼等现象发生,通过设置套筒结构与进风套筒结构,从而有效的避免上肢套合处过于闷热,致使其外皮肤出汗,流向卡环套与内卡环架结构上,而致使长时间未将其取下清理产生异味的现象。(The invention provides a device for protecting upper limb artery for orthopedic patients, which comprises a first tightening belt, a sleeve structure, a rubber sleeve, an air inlet sleeve structure and a second tightening belt, wherein the right side of the first tightening belt is bonded with the left side of the sleeve structure, the rubber sleeve is positioned between the sleeve structure and the air inlet sleeve structure and is bonded through glue solution, the lower end of the air inlet sleeve structure is bonded with the upper end of the second tightening belt, the invention arranges the sleeve structure and the air guide cylinder structure, thereby protecting the upper limb well and effectively preventing the upper limb from being knocked and painful when being impacted by the crutch or an external object, and the like, thereby effectively avoiding the phenomenon that the upper limb sleeve joint is too stuffy and hot, so that the outer skin of the upper limb sleeve joint sweats and flows to the structure of the snap ring sleeve and the inner snap ring frame, and the upper limb sleeve joint is not taken down for cleaning for a long time to generate peculiar smell.)

1. The utility model provides an orthopedics patient uses's protection upper limbs artery device, its structure includes first lacing tape (1), sleeve structure (2), rubber sleeve (3), air inlet sleeve structure (4), second lacing tape (5), first lacing tape (1) right side bonds mutually with sleeve structure (2) left side, rubber sleeve (3) are located between sleeve structure (2) and air inlet sleeve structure (4) and bond through gluing solution, air inlet sleeve structure (4) lower extreme bonds its characterized in that with second lacing tape (5) upper end mutually:

the sleeve structure (2) comprises a clamping ring sleeve (21), a buffering ring (22), a first heat insulation ring (23) and a first outer support shell (24), wherein the outer ring of the clamping ring sleeve (21) is bonded with the inner ring of the buffering ring (22), the outer ring of the buffering ring (22) is fixedly connected with the inner ring of the first heat insulation ring (23), and the first heat insulation ring (23) is sleeved on the inner wall of the first outer support shell (24) and is fixedly connected with the inner ring of the first heat insulation ring.

2. The air inlet sleeve structure (4) comprises an air duct structure (41), a supporting seat (42) and a fan structure (43), the right side of the air duct structure (41) is attached to the left side of the supporting seat (42) and is connected with the left side of the supporting seat (42) through electric welding, and the fan structure (43) is installed on the right side of the supporting seat (42).

3. The device for protecting the upper extremity arteries of an orthopedic patient according to claim 1, wherein: the supporting seat (42) comprises a frame body frame (421), an air guide groove (422) and a positioning groove (423), the frame body frame (421) and the air guide groove (422) are of an integrated structure, and the frame body frame (421) and the positioning groove (423) are of an integrated structure.

4. The device for protecting the upper extremity arteries of an orthopedic patient according to claim 1, wherein: the air duct structure (41) comprises an inner clamping ring frame structure (411), a positioning column (412), a through hole (413), a protective cover (414) and a buffering heat insulation structure (415), wherein the inner clamping ring frame structure (411) is installed on an inner ring of the buffering heat insulation structure (415), the positioning column (412) is welded on the outer side of the protective cover (414), the through hole (413) and the protective cover (414) are of an integrated structure, and the inner ring of the protective cover (414) is sleeved on an outer ring of the buffering heat insulation structure (415) and is fixedly connected with the outer ring of the buffering heat insulation structure (415).

5. A device for protecting the upper extremity arteries of an orthopedic patient according to claim 3, wherein: the inner snap ring frame structure (411) comprises a snap column (111), a separation strip (112) and an air hole groove (113), the snap column (111) and the separation strip (112) are integrally cast and formed, and the separation strip (112) and the air hole groove (113) are of an integrated structure.

6. The device for protecting the upper extremity arteries of an orthopedic patient according to claim 4, wherein: the clamping columns (111) are positioned at two sides of the separating strip (112).

7. A device for protecting the upper extremity arteries of an orthopedic patient according to claim 3, wherein: buffering heat-insulating structure (415) is including interior ring frame (151), buffer structure (152), second heat-insulating ring (153), spacer ring (154), connecting hole (155), buffer structure (152) registrate in second heat-insulating ring (153) outside and fixed connection, interior ring frame (151) outer loop is connected with buffer structure (152) inner ring, spacer ring (154) are inlayed and are installed in interior ring frame (151), buffer structure (152) and second heat-insulating ring (153) right side, spacer ring (154) and connecting hole (155) structure as an organic whole.

8. The device for protecting the upper extremity arteries of an orthopedic patient according to claim 6, wherein: the buffer structure (152) comprises buffer strips (521), air cavity strips (522) and openings (523), wherein the buffer strips (521) and the air cavity strips (522) are integrally cast and formed, and the air cavity strips (522) and the openings (523) are of an integrated structure.

9. The device for protecting the upper extremity arteries of an orthopedic patient according to claim 1, wherein: fan structure (43) are including rotating ware (C1), heat dissipation chamber (C2), rotating vane (C3), branch shell (C4), wind hole (C5), it installs in branch shell (C4) inside and through mechanical connection to rotate ware (C1), heat dissipation chamber (C2) and branch shell (C4) are casting moulding as an organic whole, rotating vane (C3) are installed in rotating ware (C1) left side and are passed through mechanical connection, branch shell (C4) and wind hole (C5) are integrated structure.

Technical Field

The invention relates to the technical field of medical treatment, in particular to an upper limb artery protecting device for orthopedic patients.

Background

With the change of times and society, the orthopedic injury disease spectrum has obvious changes, for example, the bone joint tuberculosis, ankle sprain, leg bone damage and other problems, after the orthopedic injury disease spectrum is treated, a crutch is usually needed to assist walking, the crutch can be resisted at the lower end of an upper limb, so that the artery of the upper limb can be extruded, an upper limb artery protector appears on the market, the artery is protected through the upper limb artery protector, and the long-time extrusion of the artery is avoided, but the prior art has the following defects:

when summer, the upper limbs artery protector is sleeved on the upper limbs, and the upper limbs artery protector is of a tubular structure, so that the wrapping position is in a sealing state, the wrapping position is in a sultry state, the skin surface of the wrapping position can generate a large amount of sweat, the wrapping position is not detached for a long time, and peculiar smell can be generated.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a device for protecting the upper limb artery of an orthopedic patient, which solves the problems that the upper limb artery protector is sleeved on the upper limb in summer, and the wrapped part is in a sealed state because the upper limb artery protector is in a tubular structure, so that the wrapped part is in a sultry state, a large amount of sweat can be generated on the skin surface of the wrapped part, and the device can generate peculiar smell after being not detached for a long time.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the upper limb artery protecting device for orthopedic patients comprises a first tightening belt, a sleeve structure, a rubber sleeve, an air inlet sleeve structure and a second tightening belt, wherein the right side of the first tightening belt is bonded with the left side of the sleeve structure, the rubber sleeve is positioned between the sleeve structure and the air inlet sleeve structure and is bonded through a glue solution, the lower end of the air inlet sleeve structure is bonded with the upper end of the second tightening belt, the sleeve structure comprises a clamping ring sleeve, a buffer ring, a first heat insulation ring and a first outer support shell, the outer ring of the clamping ring sleeve is bonded with the inner ring of the buffer ring, the outer ring of the buffer ring is fixedly connected with the inner ring of the first heat insulation ring, the first heat insulation ring is sleeved on the inner wall of the first outer support shell and is fixedly connected with the inner ring of the clamping ring, the air inlet sleeve structure comprises an air guide cylinder structure, a supporting seat and a fan structure, the right side of the air guide cylinder structure is attached with the left side of the supporting, the fan structure is arranged on the right side of the supporting seat.

Preferably, the supporting seat comprises a frame body frame, an air guide groove and a positioning groove, the frame body frame and the air guide groove are of an integrated structure, the frame body frame and the positioning groove are of an integrated structure, and the interior of the frame body frame is of a hollow structure.

Preferably, the air duct structure comprises an inner clamping ring frame structure, a positioning column, a through hole, a protective cover and a buffering heat insulation structure, the inner clamping ring frame structure is installed on an inner ring of the buffering heat insulation structure, the positioning column is welded on the outer side of the protective cover, the through hole and the protective cover are of an integrated structure, the inner ring of the protective cover is sleeved on an outer ring of the buffering heat insulation structure and is fixedly connected with the outer ring of the buffering heat insulation structure, and the positioning columns are four in number and are used for being assembled with the supporting seat.

Preferably, the inner snap ring frame structure comprises a snap column, a separation strip and an air hole groove, the snap column and the separation strip are integrally cast and formed, the separation strip and the air hole groove are of an integrated structure, and the air hole grooves are arranged on the separation strip on the right side.

Preferably, the clamping columns are located on two sides of the separation strip, the length of each clamping column is longer than that of the separation strip, so that the clamping columns are combined with each other to form a groove for guiding gas, the head of the inner side of each clamping column is of a hemispherical structure, and the head of each clamping column is made of sponge.

Preferably, the buffering heat insulation structure comprises an inner ring frame, a buffering structure, a second heat insulation ring, a spacer ring and a connecting hole, the buffering structure is sleeved outside the second heat insulation ring and is fixedly connected with the second heat insulation ring, an outer ring of the inner ring frame is connected with the inner ring of the buffering structure, the spacer ring is embedded and installed on the right sides of the inner ring frame, the buffering structure and the second heat insulation ring, the spacer ring and the connecting hole are of an integrated structure, and perlite is filled in the inner portion of the second heat insulation ring.

Preferably, the buffer structure comprises a buffer strip, an air cavity strip and an opening, the buffer strip and the air cavity strip are integrally cast and molded, the air cavity strip and the opening are of an integrated structure, and the buffer strip is made of rubber materials.

Preferably, the fan structure includes rotation ware, heat dissipation chamber, rotating vane, shell, wind hole, it installs in a shell inside and through mechanical connection to rotate the ware, heat dissipation chamber and shell are casting moulding as an organic whole, the rotating vane is installed in rotating the ware left side and through mechanical connection, shell and wind hole structure as an organic whole, the wind hole is circular structure.

(III) advantageous effects

The invention provides an upper limb artery protecting device for orthopedic patients. The method has the following beneficial effects:

1. the upper limb protection device is provided with the sleeve structure and the air duct structure, the buffer ring is arranged on the outer ring of the clamping ring sleeve and can play a role in buffering, so that the sleeve structure can not extrude an artery on an upper limb, the clamping column is made of rubber and can also play a role in buffering, so that an arm can not collide with a sleeving part due to a crutch, and the arm can not be knocked, and the buffer strip and the air cavity strip are arranged on the outer side of the inner clamping ring frame structure and can play a role in buffering again, so that the phenomenon that the forearm is injured when the forearm collides with an external object during walking is avoided, the upper limb can be well protected, and the phenomena that the upper limb is knocked when being collided by the crutch or the external object and the like are effectively prevented.

2. The invention starts the rotator to rotate by arranging the sleeve structure and the air inlet sleeve structure, drives the rotating blade to rotate by the rotator, thereby generating wind energy, guiding the wind energy to the air guide groove from the air hole, then the wind energy at the air guide groove can enter the through hole, then the wind energy passes through the air hole groove and enters the inner side of the inner clamping ring frame structure, and the wind energy can flow to the rubber sleeve along the groove between the clamping column and the separating strip and then is blown to the inner side of the clamping ring frame from the rubber sleeve, thereby cooling and blowing the sleeved position, and the sleeve structure and the air inlet sleeve structure are both provided with the first heat insulation ring and the second heat insulation ring, thereby being capable of isolating the external heat energy, avoiding the external heat energy from being transferred to the inside, better playing a role of cooling, thereby effectively avoiding the upper limb sleeved position from being too hot to cause the outer skin to sweat and flowing to the clamping ring frame and the inner clamping ring frame structure, so that the odor is generated when the cleaning agent is not taken down for a long time.

Drawings

FIG. 1 is a schematic structural diagram of an apparatus for protecting upper extremity arteries for an orthopedic patient according to the present invention;

FIG. 2 is a side view of the sleeve structure of the present invention;

FIG. 3 is a schematic structural view of the air inlet sleeve structure of the present invention from above;

FIG. 4 is a schematic top view of the supporting base of the present invention;

FIG. 5 is a schematic top view of an air duct structure according to the present invention;

FIG. 6 is a schematic top view of the inner collar structure of the present invention;

FIG. 7 is a schematic top view of the cushioning and heat insulating structure of the present invention;

fig. 8 is a schematic top view of the buffering structure of the present invention.

In the figure: a first tightening belt-1, a sleeve structure-2, a rubber sleeve-3, an air inlet sleeve structure-4, a second tightening belt-5, a snap ring sleeve-21, a buffer ring-22, a first heat insulation ring-23, a first outer support shell-24, an air guide cylinder structure-41, a support seat-42, a fan structure-43, a frame body frame-421, an air guide groove-422, a positioning groove-423, an inner snap ring frame structure-411, a positioning column-412, a through hole-413, a protective cover-414, a buffer heat insulation structure-415, a clamping column-111, a separating strip-112, an air hole groove-113, an inner ring frame-151, a buffer structure-152, a second heat insulation ring-153, a separating ring-154, a connecting hole-155, a buffer strip-521, an air cavity strip-522, a first heat insulation ring-153, a second heat insulation, Opening-523, rotator-C1, heat dissipation cavity-C2, rotating blade-C3, branch shell-C4 and wind hole-C5.

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.

As shown in figures 1 to 8: